Jumat, 05 Februari 2010

Intel Core 2 Duo

Intel Core 2 Duo adalah sebuah mikroprosesor yang dirilis oleh Intel Corporation pada tanggal 27 Juli 2006. Pada saat pengembangannya, prosesor ini memiliki nama kode Conroe dan Allendale.

  1. Nama Prosesor : Intel Core 2 Duo
  2. Nama kode : Conroe, Allendale, Wolfdale, Merom, Penryn, (dua inti) Kentsfield, Yorkfield, (empat inti)
  3. Dirilis : 27 Juli 2006
  4. Segmen Pasar : Desktop, Laptop
  5. Mikroarsitektur : Intel Core Microarchitecture
  6. Set instruksi : x86, MMX, SSE, SSE2, SSE3, SSE4 (SSE4 hanya untuk prosesor berdasarkan core penryn) VT, EM64T, HT (hanya seri Intel Core 2 Extreme)
  7. Front Side bus : 1066 MHz, 1333 MHz (seri conroe terbaru)
  8. Jumlah inti prosesor : 2 core, atau 4 core
  9. Interkoneksi ke motherboard : Land Grid Array (LGA), 775-pin
  10. Jumlah Transistor : Conroe:291 juta Allendale:
  11. Teknologi manufaktur : 65 nanometer (Conroe, Allandle, Merom, kentsfield) & 45 nanometer (Wolfdale, Yorkfield, Penryn)
  12. Cache Level-1 : -
  13. Cache Level-2 Yorkfield : 12 Megabyte,Kentsfield : 8 Megabyte,Wolfdale : 6 Megabyte,Conroe:4 Megabyte,Allendale: 2 Megabyte
  14. Cache Level-3 : Tidak ada
  15. Chipset pendukung : Intel 975X, Intel 965, Intel 945 (beberapa versi), nVidia nForce 680i

Kinerja prosesor ini menang telak cukup jauh jika dibandingkan dengan prosesor Intel Pentium D seri Presler apalagi Pentium D seri Smithfield yang masih menggunakan mikroarsitektur Intel NetBurst. Jika dibandingkan dengan seterunya, AMD Athlon FX 60, sebuah prosesor Intel Core 2 Duo berkecepatan 2400 MHz mengungguli prosesor tersebut dengan perbedaan kinerja kira-kira 15%. Jika prosesor AMD Athlon FX tersebut di-overclock menjadi 3.4 GHz, prosesor tersebut unggul tipis dibandingkan Core 2 Duo 2400 MHz. Ini berarti prosesor Intel Core 2 Duo jauh lebih efisien dibandingkan dengan pendahulunya dalam rangka mengeksekusi instruksi.


Kamis, 04 Februari 2010


Excess Windows

  • Walk faster than Vista, but still slightly slower than XP, but for the x64 version is the fastest version when compared to XP or Vista.
  • Security features that really tight. If earlier we can get the software to be installed in Vista (because there are compatibility problems), now no longer.
  • Less disk space required
  • Management better memory
  • Settings taskbar better
  • Almost all the drivers for Vista can be used in Windows 7
  • Help a better tool.

  • There is hardware that can be directly recognized in Vista, but not in Windows 7 (because it is still beta version)
  • It's hard to force the previous software could be forced to install in Vista, also installed in Windows 7

Windows 7 is already available to download beginning in January 2008 this month and will end trialnya around August 2008.

Official Release of Windows 7 is expected late 2009 or early 2010.

If you want to try using Windows 7, preferably by using a dual boot, so you still can work and play games on a single XP partition, with a review of Windows 7 in another partition.

And do not replace your primary operating system to Windows 7, because you'll much disturbed, and Microsoft itself does not suggest.

For driver installation, you can try to use Vistanya version. If not, look disitusnya, there may be support for the Windows 7 beta.

about SmadAV

2010 SmadAV Rev. 8 was released with a variety of new features and improvements that are specific to local eradication of the virus. That features such as Smad-Behavior that can identify new local virus that does not exist in the database SmadAV of his behavior when infecting the system. Smad-Ray that can scan automatically flash when installed within a maximum of 5 seconds. 2010 SmadAV more stable and highly recommended to be combined with international anti-virus because it can only handle SmadAV local virus. Immunization flash (using autorun.inf folder) has been revised and previously there will be a confirmation so you can decide whether a flash is to dikebalkan or not.

For information, the virus samples that users uploaded to the site Smadav.net, local spread of the virus are now beginning to fall dramatically in Indonesia. Perhaps this is due to the many local antivirus that can eradicate the local viruses. And also because the users of Windows XP that have been reduced because some had to upgrade its operating system to Windows Vista or Windows 7 a very safe from viruses, especially viral infections locally. The spread of the virus in Indonesia more dominated by the international mobile viruses and malware which certainly can not be overcome SmadAV. You must and it is strongly recommended to use the international anti-virus protection your computer from viruses and malware of this international.

Almost all new local virus that still use the local viral techniques to infect the system will be detected by SmadAV. This local virus can be detected from behavior that directly infect the system shortly after executed. So, no problem anymore for SmadAV to prevent new local virus that does not exist in the database.

Combined with Antivirus International
SmadAV made with the aim to clean and protect your computer from viruses spread locally that many in Indonesia. So, SmadAV not able to detect the virus internationally. Therefore, if you often surf or often install new programs, you must and it is strongly recommended to install an antivirus to be combined with international SmadAV. SmadAV can be combined with almost all international antivirus. When combined, SmadAV will protect your computer from viruses and local international antivirus that will protect you from viruses as a whole internationally. International's antivirus such as the free is Avira, AVG, or Avast, and that paying such a Kasperksy, Norton, or NOD32.

Smad-Ray and immunization Flashdisk
Smad-Ray is a quick scan pendrive (maximum 5 seconds) just after the flash is mounted so that without a long wait you can immediately know if the flash is your local infected or not. Immunization SmadAV flash done by adding the autorun.inf folder on your flash so that the virus that usually infects the flash will be very difficult to spread because of its autorun file can no longer be made on your flash. This immunization will be done after you approve the confirmation of the moment after the flash is attached.

The following is a complete list of improvements SmadAV Rev. 2010. 8

  1. The addition of local virus database 23 new and improved some false positive
  2. A new heuristic technique that can detect the local virus variants provided with one simple variants existing in-database
  3. VBS heuristic technique is more accurate and intelligent increased
  4. More stable to be merged with all the international AV (other AV detect the computer and if not there would suggest to get an international AV installed)
  5. Scan flash is very fast only 5 seconds (Smad-Ray) is not only scan the outer portion of the flash, but also to all the files in the flash
  6. SmadAV Pro is the password does not have access rights to change the registry with SmadAV
  7. Notifications (Balloon Tray) beginning at the start-up is not there anymore
  8. Smad-perfect behavior and with a new look when he warns the user
  9. Confirm the addition autorun.inf folder to immunization flash installed shortly after the flash, the user is free to choose to immunize its flash or not
  10. Folder SmadAV Smad-Lock/Brankas no longer automatically added in the FD but must manually via Smad-Lock tab
  11. Adding the "more" in SMARTP alerts


Computers =A computer is a tool used to process the data according to procedures that have been formulated. Computer word originally used to describe the work people do arithmetic calculations, with or without tools, but the meaning of this word and then transferred to the machine itself. Their origins, processing information almost exclusively related to arithmetical problems, but modern computers are used for many tasks unrelated to mathematics.

Broadly speaking, the computer can be defined as an electronic device that consists of several components, which can work together between the components with one another to produce a program based on information and data. The computer components are included: Screen Monitor, CPU, Keyboard, Mouse and Printer (as a complement). Without a computer printer can still perform his job as a data processor, but the extent not yet seen on the screen monitor in the form of print (paper).

In such a definition is a tool like a slide rule, mechanical calculator types ranging from abacus, and so on, until all contemporary electronic computers. Better terms suitable for a broad sense such as "computer" is "that process information" or "information-processing system."

Currently, computers are increasingly sophisticated. However, before the computer is not small, sophisticated, cool and light as now. In the history of computers, there are 5 generations of computer history.

Generation Computer

First Generation
With the onset of the Second World War, the countries involved in the war trying to develop the potential of computers for strategic mengeksploit owned computers. This increased funding to accelerate the development of computers and computer technical progress. In 1941, Konrad Zuse, a German engineer to build a computer, the Z3, to design airplanes and missiles.

Party allies also made other progress in the development of computer power. In 1943, the British completed a secret code-breaking computer called Colossus to break the secret code used by Germany. Impact of The Colossus's influenced the development of the computer industry because of two reasons. First, Colossus was not a multi-purpose computer (general-purpose computer), it was only designed to decode secret messages. Second, the existence of the machine was kept secret until decades after the war ended.

The work done by the Americans at that time produced some other progress. Howard H. Aiken (1900-1973), a Harvard engineer working with IBM, succeeded in producing electronic calculators for the U.S. Navy. The calculator is the long half-sized football field and has a range of 500 miles along the cable. The Harvard-IBM Automatic Sequence Controlled Calculator, or Mark I, an electronic relay computer. He uses electromagnetic signals to move the mechanical components. Beropreasi machine is slow (it takes 3-5 seconds for each calculation) and inflexible (order calculations can not be changed). The calculator can perform basic arithmetic calculations and more complex equations.

Another computer development at present is the Electronic Numerical Integrator and Computer (ENIAC), which is made by the cooperation between the United States government and the University of Pennsylvania. Consisting of 18,000 vacuum tubes, 70,000 resistors and 5 million soldered joints, the computer is a machine that consumes huge power of 160kW.

This computer was designed by John Presper Eckert (1919-1995) and John W. Mauchly (1907-1980), ENIAC is a versatile computer (general-purpose computer) that work 1000 times faster than Mark I.

In the mid 1940s, John von Neumann (1903-1957) joined the University of Pennsylvania team, initiating concepts in computer design to the next 40 years is still used in computer engineering. Von Neumann designed the Electronic Discrete Variable Automatic Computer (EDVAC) in the year 1945 with a good memory to hold data or programs. This technique allows the computer to stop at some point and then resume her job back. The key element to the von Neumann architecture is the central processing unit (CPU), which allowed all computer functions to be coordinated through a single source. In 1951, UNIVAC I (Universal Automatic Computer I) are made by Remington Rand, became the first commercial computer to use the model of the Von Neumann architecture.

Both the United States Census Bureau and General Electric have a UNIVAC. One of the impressive results achieved by the UNIVAC dalah success in predicting victory Dwilight D. Eisenhower in the 1952 presidential election.

The first generation computers were characterized by the fact that operating instructions are made specifically for a particular task. Each computer has a program different binary code called "machine language" (machine language). This causes the computer is difficult to be programmed and the speed limit. Another feature of the first generation computers was the use of vacuum tube (which makes the computer at that time were huge) and a magnetic cylinder for storage of data.

Second Generation

In 1948, the discovery of the transistor greatly influenced the development of computers. Transistors replaced vacuum tubes in television, radio, and computers. As a result, the size of the electric machines dramatically reduced.

Transistors into use in the computer starting in 1956. Another invention in the form of the development of magnetic core memory to help the development of second generation computers smaller, faster, more reliable, and more energy efficient than their predecessors. The first machine that utilizes this new technology is the supercomputer. IBM makes a supercomputer named Stretch, and Sprery-Rand makes a computer named LARC. These computers, which was developed for atomic energy laboratories, could handle large amounts of data, a capability that is needed by researchers atoms. The machine is very expensive and tend to be too complex for business computing needs, thus limiting its popularity. There are only two LARC ever installed and used: one at the Lawrence Radiation Labs in Livermore, California, and others in the U.S. Navy Research and Development Center in Washington, DC Second-generation computers replaced machine language with assembly language. Assembly language is a language that uses abbreviations-singakatan to replace the binary code.

In the early 1960s, computers began to appear successful second generation in business, at university, and the government. The computers of this second generation is a fully computer using transistors. They also have components that can be associated with the current computer: printers, storage on disks, memory, operating system, and programs.

One important example of this computer at the time was the IBM 1401 is widely accepted in industry circles. In 1965, almost all large businesses use computers to process the second generation of financial information.

Program stored in the computer and programming language in it to give flexibility to the computer. Flexibility is increased performance at a reasonable price for business use. With this concept, the computer could print customer invoices and purchase and then run the product design or calculate payroll. Some programming languages began to appear at that time. Programming language Common Business-Oriented Language (COBOL) and Formula Translator (FORTRAN) start commonly used. This programming language replaces complicated machine code with words, sentences, and mathematical formulas are more easily understood by humans. This allows a person to program and manage the computer. Various emerging careers (programmer, systems analyst, and expert computer systems). Software industry also began to emerge and grow during this second-generation computers.

Third Generation

Although transistors in many cases the vacuum tube, but transistors generate considerable heat, which can potentially damage the internal parts of the computer. Quartz stone (quartz rock) eliminates this problem. Jack Kilby, an engineer at Texas Instruments, developed the integrated circuit (IC: integrated circuit) in 1958. The IC combined three electronic components in a small silicon disc made of quartz sand. In Scientists later managed to include more components into a single chip called a semiconductor. A result, computers become smaller because the components were squeezed onto the chip. The progress of other third-generation computers are using the operating system (operating system) that allows machines to run many different programs at once with a central program that monitored and coordinated the computer's memory.

Fourth Generation

After IC, the development objectives became more obvious: reduce the size of circuits and electrical components. Large Scale Integration (LSI) could fit hundreds of components on a chip. In the 1980s, Very Large Scale Integration (VLSI) contains thousands of parts in a single chip.

Ultra-large scale integration (ULSI) increased that number into the millions. The ability to fit so much in a chip half the size of coins helped diminish the size and price of computers. It also increased their power, efficiency and reliability. Intel 4004 chip made in 1971 led to advances in IC by placing all the components of a computer (central processing unit, memory, and control input / output) in a very small chip. Previously, the IC is made to do a certain task specific. Now, a microprocessor can be manufactured and then programmed to meet all demands. Not long later, each household devices like microwave ovens, televisions, and automobiles with electronic fuel injection (EFI) is equipped with a microprocessor.

Such developments allow ordinary people to use a regular computer. Computers no longer be dominated large corporations or government agencies. In the mid-1970s, computer assemblers to offer their computer products to the general public. These computers, called minikomputer, sold with the software package that is easy to use by the layman. The software is most popular at the time was word processing programs and spreadsheets. In the early 1980s, video games like Atari 2600 to attract more home computers are sophisticated and can be programmed.

In 1981, IBM introduced its Personal Computer (PC) for use in the home, office and school. The number of PCs in use jumped from 2 million units in 1981 to 5.5 million units in 1982 year. Ten years later, 65 million PCs in use. Computers continued evolution towards smaller sizes, from computers that are on the table (desktop computers) into a computer that can be inserted into the bag (laptop), or even a handheld computer that can (palmtops).

IBM PC to compete with Apple Macintosh computers in the market fighting. Apple Macintosh became famous for popularizing the computer graphics system, while his rival was still using a text-based computer. Macintosh also popularized the use of mouse devices.

At the present time, we know the way to the use of IBM compatible CPU: IBM PC/486, Pentium, Pentium II, Pentium III, Pentium IV (series of CPUs made by Intel). Also we know AMD K6, Athlon, etc.. This is all included in the fourth-generation computer classes.

Along with the proliferation of computer usage in the workplace, new ways to explore the potential being developed. Along with the increased strength of a small computer, these computers can be connected together in a network for memory sharing, software, information, and also to communicate with each other. Computer network allows a single computer to form electronic co-operation to complete a process task. By using direct wiring (also known as Local Area Network or LAN), or a phone cable, the network can become very large.

Fifth generation

Defining a fifth-generation computer becomes quite difficult because this stage is still very young. Imaginative example is the fifth generation computer HAL9000 computer from fiction novel by Arthur C. Clarke titled 2001: Space Odyssey. HAL shows all the desired functions of a fifth-generation computer. With artificial intelligence (artificial intelligence or AI), the HAL may have enough reason to do with human percapakan, using visual feedback, and learning from his own experience.

Although perhaps HAL9000 realization is still far from reality, many of the functions that have already materialized. Some computers can receive verbal instructions and are able to imitate human reasoning. The ability to translate a foreign language also becomes possible. This facility was modest. However, these facilities become much more complicated than expected when programmers realized that human pengertia highly dependent on context and understanding rather than just translate the words directly.

Many advances in the field of computer design and manufacturing technologies allow semkain fifth-generation computer. Two of mainly engineering progress is the ability of parallel processing, which will replace the non-Neumann model. Non Neumann model will be replaced with a system capable of coordinating a lot of CPU to work in unison. Another is technological advances that allow the flow of superconducting electric without any obstacles, which will accelerate the speed of information.

Japan is a country well known in the jargon of socialization and the fifth generation computer project. Institution ICOT (Institute for New Computer Technology) was also formed to make it happen. Many of the news stating that the project has failed, but some other information that the success of the fifth generation computer project will bring new changes in the paradigm of computerization in the world


Sabtu, 30 Januari 2010

Pricelist Notebook


Aspire One Intel Atom N270-1.6Ghz/1024/160/Lan/Wifi/Camera/8.9″/XP-Home 3,100,000
Travelmate 3290 Core2duo T5500-1.66Ghz/1024/80/DVDRW/M/L/W/BT/ATI Radeon up to 512Mb/XP-Home 4,400,000


Aspire One AO532 Intel Atom N450-1.66Ghz/1024/160/L/W/BT/10.1″WSVGA/Camera/Win XP/1 Year (battery 8.5 hours) 3,800,000
Aspire One AO532 Intel Atom N450-1.66Ghz/1024/250/L/W/BT/10.1″WSVGA/Camera/Win 7/1 Year (battery 8.5 hours) 4,100,000
Aspire 4732Z Pentium Dual Core T4400-2.2GHz/1024/160/DVDRW/M/L/W/BT/Camera/14.1″/LInux/1 Year USD 500
Aspire 4732Z Pentium Dual Core T4400-2.2GHz/1024/160/DVDRW/M/L/W/BT/Camera/14.1″/Win 7/1 Year USD 545
Aspire 4540 AMD Turion II X2 M500-2.2Ghz/1024/250/DVDRW/M/L/W/BT/Camera/14.1″/Linux/1 Year USD 579
Aspire 4736G Core2Duo T6600-2.2GHz/2048/320/DVDRW/M/L/W/BT/Camera/14.1″/DOS/1 Year/NVDIA USD 739
Aspire 4736G Core2Duo T6600-2.2GHz/2048/320/DVDRW/M/L/W/BT/Camera/14.1″/Linux/1 Year/ NVDIA USD 819
Time Line 1810TZ Core2Solo ULV SU4100-1.3Ghz/2048/320/L/W/BT/Camera/11.6″/Win 7 HP/1 Year (free external DVDRW) USD 760
Time Line 4810TZ Core2Solo ULV SU4100-1.3Ghz/2048/320/DVDRW/L/W/BT/Camera/14.1″/Win 7 HP/1 Year USD 799
Time Line 4810TG Core2Solo ULV SU9400-1.4Ghz/3072/500/DVDRW/L/W/BT/Camera/14.1″/Win 7 HP/1 Year/ ATI Radeon USD 1150
Travelmate 4730 Core2Duo T5870-2.0GHz/1024/250/DVDRW/M/L/W/BT/Camera/14.1″/Finger Print/Vista Business/1 Year USD 829
Ferrari One FO2000 AMD Athlon 64 X2 Dual Core L310-1.2Ghz/2048/320/L/W/BT/11.6″LED/Camera/Win 7 (Free Exteral DVDRW) USD 800


Evo N160 P3-1.0GHz/256/20/CD\/M/L/14″/Battery/Adaptor 2,100,000
Evo N610C P4-1.8 Ghz/256/30/DVD/M/L/14″/Battery/Adaptor 2,850,000
Evo N620C Centrino 1.4GHz/512/30/DVDCDRW/M/L/W/14″/Bat/Adaptor 3,200,000
HP NC6000 Centrino 1.6GHz/512/40/DVDCDRW/M/L/W/14″/Battery/Adaptor 3,500,000
HP NCX6120 AMD Turion RM70-2.0Ghz/1024/60/DVDCDRW/M/L/W/14″/Finger Print/Adaptor 4,000,000
HP NC4200 Centrino 1.6GHz/1024/40/DVDCDRW/M/L/W/12″/Bat/Adaptor 3,500,000
Presario M2000 Centrino 1.7GHz/512/40/DVDCDRW/M/L/W/14″/Bat/Adaptor 3,600,000
Presario C500 Core Duo T2080-1.73Ghz/1024/80/DVDRW/M/L/W/14″/Bat/Adaptor 4,100,000


Tecra 9100 P4-1.7GHz/256/20/DVDCDRW/M/L/14″/Battery/Adaptor 3,000,000
Tecra M2 Centrino 1.5Ghz/512/30/DVDCDRW/M/L/W/14″/Bat/Adaptor 3,400,000
Tecra M3 Centrino 1.7Ghz/512/40/DVDCDRW/M/L/W/14″/Bat/Adaptor 3,600,000
Portege 2000 P3-866Mhz/256/20/M/L/12″/Bat/Aadaptor 2,200,000
Portege R100 Centrino 1.0GHz/512/20/M/L/W/DVDCDRW/12″/Bat/Adaptor/ slimmest & Lightest 3,500,000
Portege M100 Centrino 1.2GHz/512/40/DVDCDRW/M/L/W/12″/Battery/Adaptor 3,300,000
Portege M200 Centrino 1.6GHz/512/40/DVDCDRW/M/L/W/12″ PC Tablet/Battery/Adaptor 4,000,000
P0rtege M400 Core Duo T2400-.8Ghz/1024/60/DVDCRW/M/L/W/12″ PC Tablet/ Battery/ Adaptor 5,250,000
Satelite JJ10 P4-1.6Ghz/256/20/CD/M/L/14″/Bat/Aadaptor 2,650,000
Satelite SS1611 PM-1.1Ghz/512/40/M/L/W/DVDCDRW/12″/Bat/Adaptor 3,300,000


Fujitsu FMV Specification PRICE
FMV-715NU3/B Celeron 1.6Ghz/256/20/CD-ROM/Lan/14″/Bat/Adaptor 2,600,000
FMV-7180MR3 P4-1.6Ghz/256/20/CD-ROM/Lan/14″/Bat/Aadaptor 2,700,000
FMV 820MG PM-1.4Ghz/512/40/External DVDCDRW/M/L/W/12″/Bat/Adaptor 3,300,000


T4310E Core2Duo T6600-2.2GHz/2048/320/M/L/W/BT/Camera/12.1″/Touch Screen/Win 7 Home/1 Year 14,200,000
T4410 Core2Duo T8700- 2.5GHz/2048/500/M/L/W/BT/Camera/12.1″/Touch ScreenWin 7 Pro/3 Years USD 1920
T4410S Core2Duo T9600-2.8GHz/4096/500/M/L/WBT/Camera/12.1″/Touch Screen/Win 7 Pro/3 Years USD 2320
T4410H Core2Duo T9600-2.8GHz/4096/128 SSD/M/L/WBT/Camera/12.1″/Touch Screen/Win 7 Pro/3 Years USD 2680
S6421E Core2Duo T6600-2.2GHz/2048/320/M/L/W/BT/Camera/13.3″/Win 7 Basic/1 Year Call
P8110 SU7300-1.3GHz/2048/320/M/L/W/BT/Camera/12.1″/Win 7 Premium/1 year 15,200,000
P8110S SU9600-1.6GHz/4096/5000//M/L/W/BT/Camera/12.1″/Win 7 Pro/HSDPA/3 years USD 2480
P81110H SU9600-1.6GHz/4096/128 SSD/M/L/W/BT/Camera/12.1″/Win 7 Pro/HSDPA/3 years USD 2820
S6420R Core2Duo T8700- 2.5GHz/2048/320/DVDRW/M/L/W/BT/Camera/13.3″/Finger PrintVista HP/3 Years 16,200,000
S6420i Core2Duo P9400-2.6GHz/4096/320/DVDRW/M/L/WBT/Camera/13.3″/finger print/Win 7 Pro/3 Years 17,200,000
P3110 SU4100-1.2GHz/2048/320/M/L/W/BT/Camera/11.6″/Win 7 PBasic/1 year 9,200,000
P3010 AMD MV40-1.66Ghz/2048/320/M/L/W/BT/Camera/11.6″/Win 7 PBasic/1 year Call
S6420A Core2Duo T8400-2.2GHz/1024/320/DVDRW/M/L/WBT/Camera/13.3″/finger print/Vista Business/3 Years 10,200,000
S6421 Core2Duo T6500-2.16Ghz/2048/320/DVDRW/M/L/W/BT/Camera/finger print/13.3″/Vista HP/1 Year 14,200,000