Sabtu, 25 Februari 2012

Capasitor History

A capacitor (formerly known as condenser) is a passive two-terminal electrical component used to store energy in an electric field. The forms of practical capacitors vary widely, but all contain at least two electrical conductors separated by a dielectric (insulator); for example, one common construction consists of metal foils separated by a thin layer of insulating film. Capacitors are widely used as parts of electrical circuits in many common electrical devices.
When there is a potential difference (voltage) across the conductors, a static electric field develops across the dielectric, causing positive charge to collect on one plate and negative charge on the other plate. Energy is stored in the electrostatic field. An ideal capacitor is characterized by a single constant value, capacitance, measured in farads. This is the ratio of the electric charge on each conductor to the potential difference between them.
The capacitance is greatest when there is a narrow separation between large areas of conductor, hence capacitor conductors are often called "plates," referring to an early means of construction. In practice, the dielectric between the plates passes a small amount of leakage current and also has an electric field strength limit, resulting in a breakdown voltage, while the conductors and leads introduce an undesired inductance and resistance.
Capacitors are widely used in electronic circuits for blocking direct current while allowing alternating current to pass, in filter networks, for smoothing the output of power supplies, in the resonant circuits that tune radios to particular frequencies, in electric power transmission systems for stabilizing voltage and power flow, and for many other purposes.
In October 1745, Ewald Georg von Kleist of Pomerania in Germany found that charge could be stored by connecting a high-voltage electrostatic generator by a wire to a volume of water in a hand-held glass jar. Von Kleist's hand and the water acted as conductors, and the jar as a dielectric (although details of the mechanism were incorrectly identified at the time). Von Kleist found, after removing the generator, that touching the wire resulted in a painful spark. In a letter describing the experiment, he said "I would not take a second shock for the kingdom of France." The following year, the Dutch physicist Pieter van Musschenbroek invented a similar capacitor, which was named the Leyden jar, after the University of Leiden where he worked.
Daniel Gralath was the first to combine several jars in parallel into a "battery" to increase the charge storage capacity. Benjamin Franklin investigated the Leyden jar and "proved" that the charge was stored on the glass, not in the water as others had assumed. He also adopted the term "battery", (denoting the increasing of power with a row of similar units as in a battery of cannon), subsequently applied to clusters of electrochemical cells. Leyden jars were later made by coating the inside and outside of jars with metal foil, leaving a space at the mouth to prevent arcing between the foils.[citation needed] The earliest unit of capacitance was the 'jar', equivalent to about 1 nanofarad.[citation needed]
Leyden jars or more powerful devices employing flat glass plates alternating with foil conductors were used exclusively up until about 1900, when the invention of wireless (radio) created a demand for standard capacitors, and the steady move to higher frequencies required capacitors with lower inductance. A more compact construction began to be used of a flexible dielectric sheet such as oiled paper sandwiched between sheets of metal foil, rolled or folded into a small package.
Early capacitors were also known as condensers, a term that is still occasionally used today. The term was first used for this purpose by Alessandro Volta in 1782, with reference to the device's ability to store a higher density of electric charge than a normal isolated conductor.
READ MORE - Capasitor History

Kamis, 23 Februari 2012

component Resistor


A resistor is a passive two-terminal electrical component that implements electrical resistance as a circuit element. The current through a resistor is in direct proportion to the voltage across the resistor's terminals. Thus, the ratio of the voltage applied across a resistor's terminals to the intensity of current through the circuit is called resistance. This relation is represented by Ohm's law:

I = V : R

Resistors are common elements of electrical networks and electronic circuits and are ubiquitous in electronic equipment. Practical resistors can be made of various compounds and films, as well as resistance wire (wire made of a high-resistivity alloy, such as nickel-chrome). Resistors are also implemented within integrated circuits, particularly analog devices, and can also be integrated into hybrid and printed circuits.

The electrical functionality of a resistor is specified by its resistance: common commercial resistors are manufactured over a range of more than nine orders of magnitude. When specifying that resistance in an electronic design, the required precision of the resistance may require attention to the manufacturing tolerance of the chosen resistor, according to its specific application. The temperature coefficient of the resistance may also be of concern in some precision applications. Practical resistors are also specified as having a maximum power rating which must exceed the anticipated power dissipation of that resistor in a particular circuit: this is mainly of concern in power electronics applications. Resistors with higher power ratings are physically larger and may require heat sinks. In a high-voltage circuit, attention must sometimes be paid to the rated maximum working voltage of the resistor.


Practical resistors have a series inductance and a small parallel capacitance; these specifications can be important in high-frequency applications. In a low-noise amplifier or pre-amp, the noise characteristics of a resistor may be an issue. The unwanted inductance, excess noise, and temperature coefficient are mainly dependent on the technology used in manufacturing the resistor. They are not normally specified individually for a particular family of resistors manufactured using a particular technology.[1] A family of discrete resistors is also characterized according to its form factor, that is, the size of the device and the position of its leads (or terminals) which is relevant in the practical manufacturing of circuits using them.


Units

The ohm (symbol: Ω) is the SI unit of electrical resistance, named after Georg Simon Ohm. An ohm is equivalent to a volt per ampere. Since resistors are specified and manufactured over a very large range of values, the derived units of milliohm (1 mΩ = 10−3 Ω), kilohm (1 kΩ = 103 Ω), and megohm (1 MΩ = 106 Ω) are also in common usage.


The reciprocal of resistance R is called conductance G = 1/R and is measured in siemens (SI unit), sometimes referred to as a mho. Hence, siemens is the reciprocal of an ohm: S = Ω − 1. Although the concept of conductance is often used in circuit analysis, practical resistors are always specified in terms of their resistance (ohms) rather than conductance.


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LCD (Liquid crystal display) History



A liquid crystal display (LCD) is a flat panel display, electronic visual display, or video display that uses the light modulating properties of liquid crystals (LCs). LCs do not emit light directly.

They are used in a wide range of applications, including computer monitors, television, instrument panels, aircraft cockpit displays, signage, etc. They are common in consumer devices such as video players, gaming devices, clocks, watches, calculators, and telephones. LCDs have replaced cathode ray tube (CRT) displays in most applications. They are available in a wider range of screen sizes than CRT and plasma displays, and since they do not use phosphors, they cannot suffer image burn-in. LCDs are, however, susceptible to image persistence.

LCDs are more energy efficient and offer safer disposal than CRTs. Its low electrical power consumption enables it to be used in battery-powered electronic equipment. It is an electronically modulated optical device made up of any number of segments filled with liquid crystals and arrayed in front of a light source (backlight) or reflector to produce images in color or monochrome. The most flexible ones use an array of small pixels. The earliest discovery leading to the development of LCD technology, the discovery of liquid crystals, dates from 1888.[2] By 2008, worldwide sales of televisions with LCD screens had surpassed the sale of CRT units.

Each pixel of an LCD typically consists of a layer of molecules aligned between two transparent electrodes, and two polarizing filters, the axes of transmission of which are (in most of the cases) perpendicular to each other. With no actual liquid crystal between the polarizing filters, light passing through the first filter would be blocked by the second (crossed) polarizer.

The surface of the electrodes that are in contact with the liquid crystal material are treated so as to align the liquid crystal molecules in a particular direction. This treatment typically consists of a thin polymer layer that is unidirectionally rubbed using, for example, a cloth. The direction of the liquid crystal alignment is then defined by the direction of rubbing. Electrodes are made of a transparent conductor called Indium Tin Oxide (ITO). The Liquid Crystal Display is intrinsically a “passive” device, it is a simple light valve. The managing and control of the data to be displayed is performed by one or more circuits commonly denoted as LCD drivers.

Before applying an electric field, the orientation of the liquid crystal molecules is determined by the alignment at the surfaces of electrodes. In a twisted nematic device (still the most common liquid crystal device), the surface alignment directions at the two electrodes are perpendicular to each other, and so the molecules arrange themselves in a helical structure, or twist. This reduces the rotation of the polarization of the incident light, and the device appears grey. If the applied voltage is large enough, the liquid crystal molecules in the center of the layer are almost completely untwisted and the polarization of the incident light is not rotated as it passes through the liquid crystal layer. This light will then be mainly polarized perpendicular to the second filter, and thus be blocked and the pixel will appear black. By controlling the voltage applied across the liquid crystal layer in each pixel, light can be allowed to pass through in varying amounts thus constituting different levels of gray.

The optical effect of a twisted nematic device in the voltage-on state is far less dependent on variations in the device thickness than that in the voltage-off state. Because of this, these devices are usually operated between crossed polarizers such that they appear bright with no voltage (the eye is much more sensitive to variations in the dark state than the bright state). These devices can also be operated between parallel polarizers, in which case the bright and dark states are reversed. The voltage-off dark state in this configuration appears blotchy, however, because of small variations of thickness across the device.

Both the liquid crystal material and the alignment layer material contain ionic compounds. If an electric field of one particular polarity is applied for a long period of time, this ionic material is attracted to the surfaces and degrades the device performance. This is avoided either by applying an alternating current or by reversing the polarity of the electric field as the device is addressed (the response of the liquid crystal layer is identical, regardless of the polarity of the applied field).

Displays for a small number of individual digits and/or fixed symbols (as in digital watches, pocket calculators etc.) can be implemented with independent electrodes for each segment. In contrast full alphanumeric and/or variable graphics displays are usually implemented with pixels arranged as a matrix consisting of electrically connected rows on one side of the LC layer and columns on the other side, which makes it possible to address each pixel at the intersections. The general method of matrix addressing consists of sequentially addressing one side of the matrix, for example by selecting the rows one-by-one and applying the picture information on the other side at the columns row-by-row. For details on the various matrix addressing schemes see Passive-matrix and active-matrix addressed LCDs.

Brief history

1888: Friedrich Reinitzer (1858–1927) discovers the liquid crystalline nature of cholesterol extracted from carrots (that is, two melting points and generation of colors) and published his findings at a meeting of the Vienna Chemical Society on May 3, 1888 (F. Reinitzer: Beiträge zur Kenntniss des Cholesterins, Monatshefte für Chemie (Wien) 9, 421-441 (1888)).

1904: Otto Lehmann publishes his work "Flüssige Kristalle" (Liquid Crystals).

1911: Charles Mauguin first experiments of liquids crystals confined between plates in thin layers. 1922: Georges Friedel describes the structure and properties of liquid crystals and classified them in 3 types (nematics, smectics and cholesterics).

1927: Vsevolod Frederiks devises the electrically switched light valve, called the Fréedericksz transition, the essential effect of all LCD technology.

1936: The Marconi Wireless Telegraph company patents the first practical application of the technology, "The Liquid Crystal Light Valve".

1962: The first major English language publication on the subject "Molecular Structure and Properties of Liquid Crystals", by Dr. George W. Gray.

1962: Richard Williams of RCA found that liquid crystals had some interesting electro-optic characteristics and he realized an electro-optical effect by generating stripe-patterns in a thin layer of liquid crystal material by the application of a voltage. This effect is based on an electro-hydrodynamic instability forming what is now called "Williams domains" inside the liquid crystal.

1964: George H. Heilmeier, then working in the RCA laboratories on the effect discovered by Williams achieved the switching of colors by field-induced realignment of dichroic dyes in a homeotropically oriented liquid crystal. Practical problems with this new electro-optical effect made Heilmeier continue to work on scattering effects in liquid crystals and finally the achievement of the first operational liquid crystal display based on what he called the dynamic scattering mode (DSM). Application of a voltage to a DSM display switches the initially clear transparent liquid crystal layer into a milky turbid state. DSM displays could be operated in transmissive and in reflective mode but they required a considerable current to flow for their operation.[7][8][9] George H. Heilmeier was inducted in the National Inventors Hall of Fame and credited with the invention of LCD.[10] Heilmeier's work is an IEEE Milestone.

1960s: Pioneering work on liquid crystals was undertaken in the late 1960s by the UK's Royal Radar Establishment at Malvern, England. The team at RRE supported ongoing work by George Gray and his team at the University of Hull who ultimately discovered the cyanobiphenyl liquid crystals, which had correct stability and temperature properties for application in LCDs.

1970: On December 4, 1970, the twisted nematic field effect in liquid crystals was filed for patent by Hoffmann-LaRoche in Switzerland, (Swiss patent No. 532 261) with Wolfgang Helfrich and Martin Schadt (then working for the Central Research Laboratories) listed as inventors.[7] Hoffmann-La Roche then licensed the invention to the Swiss manufacturer Brown, Boveri & Cie who produced displays for wristwatches during the 1970s and also to Japanese electronics industry, which soon produced the first digital quartz wrist watches with TN-LCDs and numerous other products. James Fergason, while working with Sardari Arora and Alfred Saupe at Kent State University Liquid Crystal Institute, filed an identical patent in the United States on April 22, 1971.[12] In 1971 the company of Fergason ILIXCO (now LXD Incorporated) produced the first LCDs based on the TN-effect, which soon superseded the poor-quality DSM types due to improvements of lower operating voltages and lower power consumption. 1972: The first active-matrix liquid crystal display panel was produced in the United States by Westinghouse, in Pittsburgh, Pennsylvania.[13] 1983: Researchers at Brown, Boveri & Cie (BBC), Switzerland, invent the super-twisted nematic (STN) structure for passive-matrix addressed LCDs. H. Amstutz et al. were listed as inventors in the corresponding patent applications filed in Switzerland on July 7, 1983, and October 28, 1983. Patents were granted in Switzerland CH 665491, Europe EP 0131216,[14] U.S. Patent 4,634,229 and many more countries. Scientific details are published in the article referred to [15] 1990: Under different titles inventors conceived electrooptical effects as alternatives to twisted nematic field effect LCDs (TN- and STN- LCDs). One approach was to use interdigital electrodes on one glass substrate only to produce an electric field essentially parallel to the glass substrates (Abstract).[16] To take full advantage of the properties of this In-Plane Switching (IPS) technology further work was needed. After thorough analysis, details of advantageous embodiments are filed in Germany by Guenter Baur et al. and patented in various countries (Abstract).[17] The Fraunhofer Institute in Freiburg, where the inventors worked, assigns these patents to Merck KGaA, Darmstadt, the world's leading supplier of LC substances. 1992: Shortly thereafter, engineers at Hitachi work out various practical details of the IPS technology to interconnect the thin-film transistor array as a matrix and to avoid undesirable stray fields in between pixels (Abstract).[18] Hitachi also improves the viewing angle dependence further by optimizing the shape of the electrodes (Super IPS). NEC and Hitachi become early manufacturers of active-matrix addressed LCDs based on the IPS technology. This is a milestone for implementing large-screen LCDs having acceptable visual performance for flat-panel computer monitors and television screens. 1996 Samsung develops the optical patterning technique that enables multi-domain LCD. Multi-domain and In Plane Switching subsequently remain the dominant LCD designs through 2010.[19] 2007: In the 4Q of 2007 for the first time LCD televisions surpass CRT units in worldwide sales.[20] 2008: LCD TVs become the majority with a 50% market share of the 200 million TVs forecast to ship globally in 2008 according to Display Bank.[21] In October 2011, Toshiba has announced 2560x1600 pixels on an 6.1-inch LCD panel, suitable for use in a tablet computer,[22] especially for Chinese character display. A detailed description of the origins and the complex history of liquid crystal displays from the perspective of an insider during the early days has been published by Joseph A. Castellano in Liquid Gold: The Story of Liquid Crystal Displays and the Creation of an Industry.[23] Another report on the origins and history of LCD from a different perspective until 1991 has been published by Hiroshi Kawamoto, available at the IEEE History Center.
READ MORE - LCD (Liquid crystal display) History

way through the project Nawala

Nawala Project is a DNS filtering protection that protects your Internet connection from the things that pornography, gambling, phishing, malware, or anything harmful. Protection of Project Newsletters are often used in a particular cafe-cafe in my area, because of the way of protection that's easy to install. Usually young people who want to see porn site that smell would be surprised at the sight of the desired site could not be opened. Because it is so easy to put this protection, a way to penetrate the protection was also very easy, no software, no strange strange equipment. Here are the requirements necessary to pierce it:
1. You should be able to read and write
2. You should be able to operate a computer
3. No. You have to set up DNS server
How To Penetrate Protection Project Newsletters
- Right click on My Network Places Select Properties
- Right click on Local Area Connection Select Properties
- Select the Internet Protocol (TCP / IP) Click Properties
- Replace number DNS with: For the preferred DNS Server 208.67.222.222
For Alternate DNS Server 208.67.220.220
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Rabu, 22 Februari 2012

Yugi Game

how to install this game to your computer is :
1. download Yugi 1-4
2. open winrarnya
3. merge the files that are inside
4. Yugi click pc
5. completed and Play This Game

Please download Yugi that is below:
  1. Download Yugi 1 
  2. Download Yugi 2 
  3. Download Yugi 3 
  4. Download Yugi 4
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Minggu, 19 Februari 2012

Banyunibo temple



Banyunibo (Javanese: "dripping water") is a 9th century Buddhist temple located in Cepit hamlet, Bokoharjo village, Prambanan, Sleman Regency, Yogyakarta, Indonesia. The temple is dated from the era of Medang Kingdom, and located on a narrow valley surrounded with paddy field, about two kilometers to the southeast of the Ratu Boko archaeological park on the east side of modern Yogyakarta. Further north is Prambanan temples, and to the south are the Gunung Sewu hills, extension of Gunung Kidul hills.

Architecture

Banyunibo has a curved rooftop design crowned with a solitary stupa, this theme is unique among the surviving Buddhist temples of Central Java. The curved rooftop was probably meant to symbolize lotus or padma petals, or it probably meant to mimic the organic roof made from ijuk fibres (black fibres surrounding the trunk of Arenga pinnata) common in ancient Java vernacular architecture and also can be found today in Balinese temple roof architecture. The main structure was originally surrounded by stupas at ground level, the foundations of which can still be seen today. The stupas foundations are arranged in a row of three stupas in south side of the temple, and three stupas on the east side. The northern side probably also contain the base of three stupas, however it still buried under a meter thick of earth. The main temple is facing west.

The stairs and the portal of the temple is adorned with typical Kala-Makara style, typical of ancient Central Javanese temples dated from this period. Makara is located on each side of the stair and Kala head is located on top of the portals. The niches surrounding the body of the temple is adorned with the images of boddhisattvas, while the niches upon the windows are adorned with the images of taras with each hands holding flowers. The inner wall is adorned with the image of Hariti surrounded by children (some parts of this relief are missing) and Vaisravana. The inner wall also adorned with a bald male figure underneath an umbrella being upheld by servants, suggests that it may represent one of the temple's patrons.

The collapsed ruins of Banyunibo was discovered on November 1940. Research are continued to 1942 and has succeed to reconstructed the roof and the portal section of the temple. The reconstruction was halted due to World War II and Indonesian National Revolution. In 1962 the restoration of sub-basement, foot, and wall section of the temple, as well as the north wall was finished. The reconstruction of Banyunibo temple was completed in 1978.

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lake toba from Indonesia



Lake Toba (Indonesian: Danau Toba) is a lake and supervolcano. The lake is 100 kilometres long and 30 kilometres wide, and 505 metres (1,666 ft) at its deepest point. Located in the middle of the northern part of the Indonesian island of Sumatra with a surface elevation of about 900 metres (2,953 ft), the lake stretches from 2.88°N 98.52°E to 2.35°N 99.1°E. It is the largest lake in Indonesia and the largest volcanic lake in the world.

Lake Toba is the site of a supervolcanic eruption that occurred an estimated 69,000 to 77,000 years ago, a massive, climate-changing event. The eruption is believed to have had a VEI intensity of 8. It is the largest known explosive eruption anywhere on Earth in the last 25 million years. According to the Toba catastrophe theory, it had global consequences, killing most humans then alive and creating a population bottleneck in Central Eastern Africa and India that affected the genetic inheritance of all humans today. However, this theory is not widely accepted due to lack of evidence for any other animal decline or extinction, even in environmentally sensitive species. However, it has been accepted that the eruption of Toba led to a volcanic winter with a worldwide decline in temperatures between 3 to 5 °C (5 to 9 °F), and up to 15 °C (27.0 °F) in higher latitudes.

Geology<

The Toba caldera complex in Northern Sumatra, Indonesia consists of four overlapping volcanic craters that adjoin the Sumatran "volcanic front". The youngest and fourth caldera is the world's largest Quaternary caldera (100 by 30 km (62 by 19 mi)) and intersects the three older calderas. An estimate of 2,800 km3 (670 cu mi) of dense-rock equivalent pyroclastic material, known the Youngest Toba tuff, was blasted from the youngest caldera during one of the largest single explosive volcanic eruptions in geologic history. Following the "Youngest Toba tuff eruption", a typical resurgent dome formed within the new caldera, joining two half-domes separated by a longitudinal graben.

There are at least four cones, four stratovolcanoes and three craters visible in the lake. The Tandukbenua cone on the NW edge of the caldera is relatively lacking in vegetation, suggesting a young age of only several hundred years. Also, the Pusubukit volcano on the south edge of the caldera is solfatarically active.

More recent activity

Smaller eruptions have occurred at Toba since. The small cone of Pusukbukit has formed on the southwestern margin of the caldera and lava domes. The most recent eruption may have been at Tandukbenua on the northwestern caldera edge, since the present lack of vegetation could be due to an eruption within the last few hundred years.

Some parts of the caldera have experienced uplift due to partial refilling of the magma chamber, for example pushing Samosir Island and the Uluan Peninsula above the surface of the lake. The lake sediments on Samosir Island show that it has been uplifted by at least 450 metres (1,476 ft) since the cataclysmic eruption. Such uplifts are common in very large calderas, apparently due to the upward pressure of unerupted magma. Toba is probably the largest resurgent caldera on Earth. Large earthquakes have occurred in the vicinity of the volcano more recently, notably in 1987 along the southern shore of the lake at a depth of 11 km (6.8 mi).[ Other earthquakes have occurred in the area in 1892, 1916, and 1920–1922.

Lake Toba lies near the Great Sumatran fault which runs along the centre of Sumatra in the Sumatra Fracture Zone. The volcanoes of Sumatra and Java are part of the Sunda Arc, a result of the northeasterly movement of the Indo-Australian Plate which is sliding under the eastward-moving Eurasian Plate. The subduction zone in this area is very active: the seabed near the west coast of Sumatra has had several major earthquakes since 1995, including the 9.1 2004 Indian Ocean Earthquake and the 8.7 2005 Sumatra earthquake, the epicenters of which were around 300 km (190 mi) from Toba.

On 12 September 2007, a magnitude 8.5 earthquake shook the ground in Sumatra and was felt in the Indonesian capital, Jakarta. The epicenter for this earthquake was not as close as the previous two earthquakes, but it was in the same vicinity.

On 26 October 2010, a magnitude 7.7 earthquake occurred 36 kilometers (22 mi) southwest of the nearby island of Pagai-selatan. A 3-metre (10 ft) tsunami immediately followed the quake.

On 10 January 2012, a magnitude 7.3 earthquake occurred within the area.

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Rabu, 15 Februari 2012

how to optimize blogspot.com??

SEO Optimization How to blogspot? For those of you who have a blogspot blog to platform to optimize our blogs are not much different from her blog platform like wordpress, joomla etc.. However, blogspot has its own advantages than others.
SEO techniques are a way to quickly indexed by search engines, how to position your blog in search engines and how to create a blog visitor busy. These methods is some discussion of the much sought-after SEO to optimize their blogs.

Some basic techniques Blogspot SEO optimization may be used as a bit of a reference or benchmark to start blogging.
The basic steps of SEO Optimization blogspot

    
Determine the main topic of the blog. The content of what would later dominate the content of blogspot? The move will affect to set the domain name, title and blog description. More specific the better, for example the dominance of content about seo, you can choose the domain "learning seo.blogspot.com" with the blog title "SEO Articles" and the description of the blog "a place to learn seo with me"
    
Blog view. Choose the blog that first light, do not install the widget, image, video too much. Use https://developers.google.com/pagespeed/ to test the speed of the blog. Try to score above 80. This step makes it easy to crawl google blog without interference so quickly indexed.
    
Must make a blogspot with google email. Take advantage of also other facilities such as Google google analytics to monitor the development of blogs and Google webmaster tools to view, diagnose performance, health and configuration of the blog, and get data from Google's indexing and ranking.
    
Keywords in Domain Optimization, Blog Title and Description. As described in number 1, the main topic of a big impact on SEO. Suppose you are targeting a keyword (keyword) "SEO", the keyword must be present on the domain name, title, blog description, example: domain name (url) "belajarseo.blogspot.com" Blog Title "SEO Articles" blog description "where learn seo with me ". Although sometimes difficult to associate a keyword into the three parts of it, try to at least 2 parts. Do not get all three did not contain the targeted keywords.

After the above steps done, if lucky a few hours we already indexed google blog, though without any articles. And please note, google's blogspot, of course, your blog is also supported by google as long as the owner according to google webmaster rules. Try typing in your blog url in google search box.
Blogspot SEO Optimization What is Done?
Of course not, if we are just starting out and create a blog, on the new step. The next step is to fill as well as optimize blogspot blog for SEO purposes successfully.
Create a Blog Post Articles and Interesting Match.

    
If you want to blog in the position of the start page in the search engines, as a first step you may first need to create articles related to the topic of your blog and put the keywords that correspond to all parts of starting a blog domain, titles, descriptions and articles. This step is an initial introduction to our blog with the search engines. Logically, usually when introducing themselves will tell you things that are good and interesting than we are, right?
    
Newbie blogger mistakes often made in this step, for example, topics categorized blog of blogs that discuss SEO tips and tricks, but that we post are cooking or culinary tips, of course, does not connect. We could discuss other topics, but later on after we are already familiar with the blog search engines and blog visitors. How about a blog that already exists and has had many articles that a variety of topics? We will discuss later.
    
And do not forget, trying to create a unique and interesting article. Unique articles is different from the others both in terms of content (original) and display the contents of the article (use bold, italics, underline, H2, H3, etc.)

Creating a One Way Link

    
After the blog and its contents is completed, to support the existence of the blog is up and looking for one way backlinks. That is, there are blogs or other websites that provide or create a link to the blog, not a link exchange! It may be difficult if we ask for backlinks to the well-known blogs with certain considerations. One easy way is to make a comment on dofollow blogs to put our blog URL link, sign up to forums and social bookmarking are no profiles in our blog URL, or create a dummy blog is a blog again as much as possible by making a link to the main blog we. Find and create a direct link (One way link) as much as possible. This step aims to make "confessions" and support the existence of our blog.
Submit to Social Bookmarking and Search Engine

    
One attempt to speed up the blog known and visited by many people is to send the URL of the article to many social bookmarking, social bookmarking sites both domestic and foreign. Social bookmarking sites typically accept our article url link with a little description, as kombes.com, lintasberita.com, etc.. If you have a social networking accounts like facebook or twitter, include the article link can also be done. Recommendation: try to vivanews.com list and submit your blog. If successful, look at the results. Read vivanews.com contribution to the blogger Indonesia.
    
Search engines not just google, there is still a yahoo, bing, ask, alvista etc.. Use this opportunity to introduce more blogs on the internet and see if there are visitors coming from search engines other than google. Submit your blog URL to multiple search engines.

The steps above are sufficient for basic SEO optimization blogspot Blogspot and you are ready to fight following the SEO Contest. But you need a lot more to learn SEO for blogspot "greng" such as editing code to make it more seofriendly blogspot, onpage optimization and offpage blog. If you feel you still need SEO to my blogspot, surfing in search of knowledge of SEO as much as possible or try visiting master SEO blog SEO contest winners, who knows to his knowledge
The article is based on theory and experience of the author. May be useful especially for beginner bloggers. Good luck and good luck in the world of Blog
READ MORE - how to optimize blogspot.com??

Minggu, 05 Februari 2012

Tips dan Trick Memaksimalkan WINdow-XP

Tips dan Trick Memaksimalkan WIN-XP

Copy-Paste kode di bawah ini jika Anda ingin mempublikasikannya ulang untuk keperluan non-komersil. DILARANG memodifikasi separuh atau seluruh bagian dari kode tersebut.

*Widget By Vandy 165

Ada beberapa hal yang bisa dipergunakan untuk melakukan set up terhadap performa dan kinerja dari win xp , antara lain adalah :

1. mempercepat startup windows XP

* buka windows explorer

* masuk ke c:\%whatever%\Prefetch (%whatever% = folder windows loe)

* select semua file di folder prefetch

* Delete

* restart komputer & loe bisa lihat klo startupnya lebih cepat dari biasa

Ada beberapa hal yang bisa dipergunakan untuk melakukan set up terhadap performa dan note : cara ini dilakukan kurang lebih 2 minggu sekali

2. menonaktifkan account administrator pada windows XP

* click start->Control Panel->Performance and maintenance->administrative tools->local security policy

* Di dalam folder local security policy, masuklah ke security settings\localpolicies\security options

* click dua kali policy Accounts:Administrator account status lalu pilih disabled

* click ok lalu tutup window tersebut.

note : Cara ini dilakukan untuk menghindari orang2 “jahil” yang ingin merusak windows anda, tetapi apabila trick ini dilakukan maka account administrator tidak akan bisa dibuka lagi, kecuali anda membuat backup account yang fungsinya sama seperti administrator.

3. bikin cepet bandwith (Original Posted Neo_T)

* Click Start–>Run–> tuliskan “gpedit.msc” (tanpa tanda ” )

* setelah masuk ke group policy editor, masuk ke Local Computer Policy–>Computer Configuration–>Administrative Templates–>Network–>QOS Packet Scheduler–>Limit Reservable Bandwidth

* pilih ENABLE reservable bandwidth, lalu ganti 20% menjadi 0

01. Cara cepat keluar Windows.

Klik kanan pada Desktop -> New -> Shortcut. Isikan:

C:\windows\rundll.exe user.exe,exitwindowsexec

Ketika seseorang melakukan double-click pada desktop, maka

Windows akan langsung menutup semua aplikasi yang sedang

berjalan tanpa proses lebih lanjut yang memakan waktu

lebih lama seperti pada proses Start atau Shutdown.

02. Cara cepat restart Windows

Terkadang pada sebuah program, Windows harus direstart setelah

proses install maupun uninstall dan proses booting membutuhkan

waktu yang relatif lama (tergantung jenis processor dan jumlah

memory yang dimiliki).

Cara cepat untuk merestart Windows adalah membuat shortcut

seperti pada trik #01. Dan pada command link box diisi:

C:\windows\rundll.exe user.exe,exitwindows

03. Mendisable Shutdown pada Start Menu.

Jalankan regedit. Start -> Run -> regedit. Browse

HKEY_CURRENT_USER\Software\micr*soft\Windows\CurrentVersion\

Policies\Explorer

Jika tidak ditemukan Explorer, dapat dibuat entry baru dengan

cara mengklik-kanan New -> Key. Klik-kanan lagi untuk memilih

New -> DWORD Value kemudian rename menjadi NoCloseKey atau

NoClose dengan value data adalah 1.

XXX: 1 untuk mengaktifkan dan 0 untuk menonantifkan (default)

04. Menyembunyikan Drive pada Window Explorer

Menggunakan regedit seperti pada trik #03, namun entry yang

harus ditambahkan adalah NoDrives (DWORD Value) dengan

value data adalah 3FFFFFF. Untuk menampilkan kembali, hapus

entry NoDrives.

05. Bermain dengan WinLogon

Menggunakan regedit dan mebuat entry Dword baru pada

HKEY_LOCAL_MACHINE\SOFTWARE\micr*soft\Windows\

CurrentVersion\Winlogon

Tambahkan entry

LegalNotice Text? = “Kabayan belajar Windows Hacking”

LegalNoticeCaption = “Kabayan Keren”

06. Mendisable SaveSetting

Buat entry DWORD baru pada

HKEY_CURRENT_USER\Software\micr*soft\Windows\

CurrentVersion\Policies\Explorer

isi dengan NoSaveSetting dan value datanya adalah 1.

07. By-pass Windows Login

Ketika Start up Windows, tekan F8 sebelum logo startup

Windows muncul, pilih Command Prompt Only. Pindah ke

direktori C:\WINDOWS dan hapus file yang berekstensi .pwl.

C:\WINDOWS> attrib *.pwl

C:\WINDOWS> del *.pwl
READ MORE - Tips dan Trick Memaksimalkan WINdow-XP

TIP OVER CLOCK

Sep 11, '07 1:48 PM

for everyone

Overclock, tentu sudah pernah Anda dengar. Per definisi artinya adalah menjalankan komputer pada kecepatan clock lebih tinggi dari spesifikasinya, menurut Wikipedia overclock artinya menjalankan sebuah komponen komputer diatas dari clock rate dari yang seharusnya. Misalnya Duron 600MHz dijalankan pada clock 1080MHz. Overclock memang menjadi keasyikan tersendiri bagi penggemar komputer. Dengan sistem minimal, pengguna berusaha kreatif untuk mencari, bagian mana pada sistem yang masih bisa dioptimalkan, dengan tambahan biaya dan periferal seminim mungkin. Meski terdengar berbahaya, tapi jika Anda melakukan overclock dengan hati-hati dan tidak bernafsu maka resikonya akan kecil sekali.

Untung Rugi Overclock

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Keuntungan overclock jelas, PC dapat bekerja lebih cepat. Tapi juga ada risiko untuk langkah ini. Yang paling ringan adalah CPU tidak mau bekerja alias hang. Yang paling pahit, chip prosesor rusak permanen akibat suhu prosesor yang terlalu tinggi. Prosesor yang bekerja pada suhu yang tinggi ini dapat berkurang umurnya, yang memang didesain untuk bertahan kurang lebih selama kurang lebih 10 tahun. Namun, orang yang iseng barangkali telah mengepak komputer yang dipakainya sepuluh tahun lalu dalam sebuah kotak kaca dan dipajang di kamar pribadi atau ruang kerja sebagai peninggalan sejarah.

Maka pertimbangkan! Apakah dalam 10 tahun ke depan Anda tidak ingin mengganti prosesor yang sekarang Anda pakai? Apakah Anda yakin pada saat itu prosesor Anda masih bisa digunakan untuk aplikasi masa depan? Jika memang Anda tidak akan memakai prosesor tersebut sepuluh tahun mendatang, mengapa tidak mencoba overclock saja? Untuk mengatasi masalah suhu, harus dilakukan usaha pendinginan. Pendinginan inilah yang akan menjadi perhatian utama kita dalam overclock. Beberapa tahun yang lalu, overclock biasanya hanya memaksa prosesor bekerja pada clock speed satu level di atasnya, misalnya Pentium 120MHz ke 133MHz. Tapi sekarang, dengan berkembangnya bus speed pada motherboard, anda juga dapat menggeber clock dan bus speed.

CPU Clock dan BUS Clock

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Pada overclock ini, penting untuk mengetahui konsep tentang CPU clock dan bus clock. CPU clock adalah sinyal clock di dalam CPU, termasuk prosesor. CPU clock inilah yang sering disebut pada spesifikasi prosesor. Contohnya Pentium 4 2,4GHz. Artinya, prosesor tersebut mendapat jatah CPU clock 2,4GHz. Clock artinya bukan arloji atau jam. Di sini maksudnya adalah sinyal yang digunakan oleh prosesor untuk memicu terjadinya suatu proses.

Anda bisa menggunakan software gratis CPU-z atau Central Brain Identifier untuk medeteksi CPU clock.

Lebih jelasnya begini. Andaikan sebuah prosesor akan melakukan proses penjumlahan, yang dilakukan pertama kali adalah mengambil data dari memori. Tapi penjumlahan tidak bisa langsung dilakukan, karena menunggu sinyal clock, yang analog dengan pemicu pistol. Semakin tinggi frekuensi clock/clock speed, semakin banyak sinyal picu/trigger yang disediakan dalam satu periode tertentu, sehingga akan semakin banyak proses yang dapat dipicu pada periode tersebut. Misalkan PC Pentium 4 2,4GHz. Prosesor ini memiliki frekuensi clock 2400 juta sinyal per detik. Andaikan untuk sebuah proses penjumlahan memerlukan 1 buah sinyal clock, maka dengan prosesor Pentium 4 2,4GHz, dapat dilakukan maksimal 2400 juta kali proses penjumlahan.

Prosessor AMD sejak AthlonXP mulai menggunakan model number yang mengidentifikasikan performance rating dari prosesor bersangkutan. Sebagai contoh AthlonXP dengan model number 2000+ sebenarnya mempunyai clock efektif sebesar 1,67GHz namun setara dengan prosesor lain berkecepatan 2GHz.

Bus clock sendiri merupakan clock yang terjadi pada jalur data (bus) di motherboard. Bus ini analog dengan jalan raya, yang akan dilewati bit-bit data, di mana data analog dengan mobil di jalan raya. Bus clock akan menjadi panduan saat transfer data antar komponen melalui bus. Contohnya, transfer data dari dan ke RAM atau harddisk akan melalui bus, dan akan dipicu oleh bus clock. Bus yang ada dalam motherboard biasanya memiliki clock standar. PCI, misalnya, clock speednya adalah 1/2 bus clock, jadi clock standarnya 33MHz. Sedangkan AGP, clock standarnya 66MHz. Jika bus-bus tersebut digeber di atas clock standarnya dan ternyata periferal yang terhubung tidak mampu bekerja di atas clock standar, maka sistem tidak dapat bekerja normal. Resep pertama untuk melakukan overclock adalah Anda harus sudah paham kerja sebuah komputer dan mengenali komponen-komponennya.

Tipe Overclock

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Hubungan antara CPU clock dan bus clock dijalin oleh sebuah pengali/multiplier. Secara sederhana, CPU Clock = Bus Clock * Multiplier. Misalkan, AMD AthlonXP 2000+ dengan clock speed standarnya yaitu 1666MHz adalah hasil perkalian bus clock 133MHz dengan multiplier 12,5 (dua belas setengah). Pentium 4 2,4GHz adalah perkalian bus 200MHz dengan multiplier 12. Bisa juga perkalian bus clock 266MHz dengan multiplier 9. Lho, kan jadinya 2,394GHz (2394MHz)? Memang, ada pembulatan agar menjadi angka yang utuh. Dengan demikian, untuk melakukan overclock, yang dapat ditingkatkan adalah bus clock, multiplier, atau keduanya. Jika yang dinaikkan multipliernya, maka CPU clock akan naik, tapi bus clock tetap.

AMD AthlonXP 2000+ (1666MHz=133MHz*12,5)

Overclock 1: 133MHz*15=1995MHz.

Overclock 2: 166MHz*12=1992MHz.

Kenapa overclock 2 mempunyai kinerja lebih baik dari overclock 1?

Untuk contoh di atas, pada AMD AthlonXP 2000+ (1666MHz real), jika multipliernya dinaikkan menjadi 20, maka CPU clock naik menjadi 2660MHz real. Tapi jika bus clock yang dinaikkan, otomatis CPU clock juga akan naik. Contohnya, Pentium 4 2,4GHz dengan bus clock 200MHz dan multiplier 12 bakal jadi Pentium 4 3GHz jika bus clock digenjot sampai 266MHz. Akan lebih baik jika yang dinaikkan adalah bus clocknya. Tapi alternatif yang kedua lebih sulit mengingat kemampuan periferal yang terhubung ke bus kemungkinan tidak mampu bekerja di atas clock standar. Jika CPU clock sudah mentok, sementara bus masih perkasa, turunkan saja multipliernya dan naikkan bus clock. Ini masih lebih baik dari alternatif pertama.

Persyaratan Hardware

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Untuk overclock, yang menjadi perhatian utama adalah prosesor, motherboard, dan memori, karena ketiga komponen inilah yang nantinya akan menetapkan keterbatasan overclock. Pada prosesor dan motherboard, keterbatasannya adalah pada suhu kerja. Clock yang tinggi akan meningkatkan panas pada kedua komponen, dan pada taraf tertentu akan mengakibatkan komputer hang atau bahkan tidak mau membaca hard disk saat booting.

Untuk prosesor, Intel adalah produsen prosesor yang mengharamkan overclock selain AMD yang mendukung penuh untuk urusan overclock. Untuk motherboard carilah motherboard dengan kualitas yang baik dan dapat mendukung beberapa macam bus clock serta multiplier. Selain itu, carilah motherboard yang memiliki dukungan untuk berbagai suplai tegangan CPU. Biasanya mulai 1,1 volt sampai dengan 2,3 volt dengan kenaikan per 0.025. Jika board tersebut mendukung suplai tegangan yang lebih tinggi dari 2.3 volt misalnya, ini lebih baik lagi, karena mungkin akan diperlukan untuk mensukseskan overclock dengan menaikkan suplai tegangan prosesor.

Sampai saat ini (sampai tulisan ini dibuat pertama kali) motherboard yang memiliki spesifikasi seperti di atas adalah motherboard dengan chipset VIA dan N-Force2/N-Force3. Pada memori, bus clock yang tinggi kemungkinan tidak mampu diikuti oleh RAM. Peningkatan bus clock akan meningkatkan kecepatan baca dan tulis ke memori sehingga jika memori tidak mendukung, akan terjadi kegagalan proses baca dan tulis ke memori. Semakin cepat waktu akses (access time) suatu memori, akan semakin mendukung bus clock yang tinggi.

Sekarang adalah jamannya memori DDR yang mempunyai clock lebih tinggi dibandingkan memori generasi sebelumnya. Memori jenis DDR ada beberapa tipe. PC-1600 (133MHz), PC-2100 (266MHz), PC-2700 (333MHz), PC-3200 (400MHz), dan PC-4000 (500MHz) yang muncul belakangan ini.

Tentang Prosessor Intel

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Sebelum generasi Pentium 2, kita dengan mudah bisa mengoverclock prosesor keluaran intel dengan cara menaikkan multiplier, Namun sejak munculnya Pentium 2, harapan untuk overclocking dengan cara memanipulasi multiplier musnah sudah karena sejak saat itu intel telah mengunci multiplier prosesor buatannya dan hingga kini belum ditemukan satu cara pun untuk membukanya kembali. Satu-satunya cara untuk mengoverclock prosesor intel adalah dengan cara menaikkan FSB. masalah akan timbul ketika kita dengan sembarangan menaikkan FSB begitu saja tanpa memperhatikan faktor lain.

Lantas bagaimana kita bisa mengetahui prosesor yang baik untuk dioverclock? Untuk prosesor Intel pilihlah yang mempunyai clock speed terendah didalam setiap variannya. Mengapa? ... Begini, core prosesor dibuat di dalam satu tempat yang disebut wafer. Dari sebuah wafer dapat dibuat ratusan core prosesor. Prosesor intel ber-FSB 800MHz mulai 2,4GHz, 2,8GHz dan 3GHz dibuat dalam satu wafer. Lho... mengapa kecepatannya berbeda? Kualitas prosesor terbaik adalah yang tercetak pada bagian tengah wafer, semakin kepinggir kualitasnya semakin menurun. Karena alasan kestabilan prosesor yang tidak lulus uji kecepatan 3GHz, akan diuji pada kecepatan 2,8GHz. Jika masih tidak lulus uji maka diturunkan ke 2,4GHz. Umumnya pada kecepatan ini prosesor mampu bekerja dengan baik. Karena alasan itulah maka bisa jadi prosesor 2,4GHz yang sekarang beredar bisa digeber pada kecepatan 3GHz dengan melakukan beberapa manipulasi. Misalnya menaikkan tegangan inti (V core).

Memori Untuk Overclocking

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Dalam memilih memori gunakan yang frekuensi kerjanya diatas Bus maksimal motherboard. sebagai contoh jika anda memakai motherboard ber-FSB 333MHz, maka pakailah memori dengan Bus 400MHz atau di atasnya. Ini untuk menjaga panas berlebih yang ditimbulkan akibat terjadinya kenaikan FSB. Selain itu pilihlah memori yang memang ditujukan untuk overclock karena pada keadaan standar memori jenis ini sudah dalam keadaan agresif. Secara fisik memori jenis ini mempunyai selubung berupa alumunium yang berfungsi menyerap panas seperti pada heatsink prosesor.

Dalam banyak praktek overclocking pada prosessor AMD timing memori sangat berpengaruh pada hasil akhir, contohnya memori dengan timing ketat dan mampu berjalan pada bus yang tinggi akan mempunyai hasil kinerja benchmark yang lebih baik.

Baca artikel mengenai timing memori disini.

Tidak tertutup kemungkinan untuk memakai memori yang berkecepatan sama dengan bus motherboard dengan syarat motherboard yang dipakai memiliki fitur CPU FSB/DRAM ratio seperti tampak pada halaman 3 gambar tengah sebelah kanan. Ini berfungsi supaya antara FSB prosesor dan frekuensi memory dapat bekerja secara asynchronous. Jelasnya begini, Katakanlah sekarang anda memakai memori DDR 400 yang berarti bekerja pada frekuensi 200MHz. Saat ini anda menaikkan FSB prosesor sebesar 205MHz, berarti secara tidak langsung anda telah menaikkan frekuensi memori menjadi 205MHz yang akhirnya menghasilkan frekuensi efektif sebesar 410MHz. Modus yang seperti di atas disebut Synchronous. Nah disinilah faktor motherboard sebagai komponen vital teruji karena tidak semua motherboard mempunyai fitur tersebut.

Sebagai contoh, andaikan anda memakai DDR PC-3200 dan dioperasikan dengan mode 5:4, maka akan didapat 200MHz * 5/4 = 250. Mode ini bila dijalankan pada prosesor intel 2,4C maka akan terjadi nilai overclock : 12 * 250MHz = 3GHz. Sedangkan memori akan tetap bekerja pada frekuensi 200MHz (DDR 400) alias modus Asynchronous.

Langkah Demi Langkah

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Nah inilah saatnya kita bermain-main. Sebelum mulai, siapkan dulu manual dan benda-benda yang menggambarkan konfigurasi motherboard, prosesor, dan RAM, karena banyak keterangan yang nantinya akan kita cari di situ. Bagaimana jika buku manual hilang atau tidak disertakan oleh penjualnya ketika Anda membeli? Jangan khawatir, dengan trik tertentu dan sedikit keberuntungan, mungkin kita bisa mendapatkan keterangan tentang hardware kita. Keberuntungan itu sangat tergantung dari merek motherboard yang Anda beli.

Untuk memulainya, pastikan sistem anda dalam keadaan standar dan anda telah melakukan optimalisasi windows. Untuk memastikan bahwa sistem dalam keadaan standar anda bisa menggunakan Sisoftware Sandra, AIDA 32, atau EVEREST untuk mengecek seluruh setingan yang berkaitan dengan frekuensi kerja sistem PC. Bila perlu jalankan dulu 3DMark2001 sekali saja untuk mengetes kestabilan awal lalu catat skornya. Pastikan juga anda telah paham betul dengan karakteristik hardware yang akan di overclock.

Restart PC anda, masuk ke BIOS cari fitur untuk pengaturan FSB dan multiplier. Pastikan Frekuensi AGP/PCI = 66MHz/33MHz dengan mengaktifkan opsi AGP divider (jika ada) atau PCI lock agar frekuensi AGP/PCI tidak turut terpengaruh dengan naiknya FSB. Biasanya motherboard keluaran terbaru sudah menyertakan fitur PCI lock ini.Mengapa? sebab jika AGP/PCI ikut naik bisa dipastikansistem akan berjalan tidak stabil. Seperti kita tahu hardisk adalah salah satu komponen yang terhubung ke port IDE, dan IDE termasuk komponen PCI yang dikontrol oleh chipset south bridge yang frekuensinya turut naik jika ada kenaikan FSB. Apa akibatnya jika frekuensi kerja IDE mengalami kenaikan? yang jelas akan terjadi gangguan pada platter harddisk sehingga data menjadi korup. Dengan alasan inilah maka kita harus menjaga supaya AGP/PCI tetap pada keadaan standar.

Langkah selanjutnya naikkan dulu FSB per 1MHz, lalu simpan perubahan di BIOS. Langkah pertama ini biasanya sukses. Jika windows berjalan lancar restart kembali PC anda dan masuk ke BIOS lalu ulangi lagi langkah diatas sampai mendapatkan keadaan dimana PC masih bisa booting tetapi sudah tidak bisa masuk windows. Sampai disini ada beberapa kemungkinan mengapa tidak bisa masuk windows.

Kemungkinan pertama kekurangan tegangan dan daya dari power suplai, gantilah dengan power suplai terbaik adalah yang mempunyai power output 500 Watt. simulasikan kebutuhan power dengan KOC2 Power Suplai Kalkulator

Kemungkinan kedua prosesor anda memang sudah tidak mampu lagi dioverclock.

Kemungkinan ketiga Kualitas motherboard yang memang bukan untuk keperluan overclock.

Bagaimana jika ketiga kemungkinan di atas sudah terpenuhi? artinya semua sudah memenuhi syarat. Berarti anda harus menurunkan multiplier. Coba turunkan 0.5 point kemudian restart lagi. Jika ini pun masih hang, ulangi langkah di atas sampai bisa masuk windows. Sampai disini sukses. Semudah itukah? Ya memang!!! Tapi jangan senang dulu...Anda harus melakukan prosesi yang bagi kalangan overclocker populer dengan sebutan Benchmark.

Jika komputer mau menyala beberapa lama lalu kemudian hang, kemungkinan besar disebabkan oleh panas prosesor yang berlebih. Jika ini yang terjadi, coba buka casing komputer anda, dan tunggu beberapa menit. Kemudian nyalakan lagi komputer. Jika beberapa saat kemudian, dengan selang waktu yang sama dengan sebelumnya, komputer mengalami hang lagi, artinya memang prosesor keok. Selain itu, ada kalanya hang juga disebabkan sinyal clock pada CPU menjadi kabur. Artinya, batasan antara logika 0 dan 1 pada sinyal clock menjadi tidak jelas (dalam komputer, sinyal-sinyal direpresentasikan sebagai biner dengan 0 dan 1). Untuk mengatasi hal ini, coba naikkan tegangan kerja prosesor.

Ada kalanya pada keadaan terparah komputer tidak mau booting maka langkah yang harus anda ambil adalah membuka kesing komputer dan mencari jumper reset bios kemudian mereset bios (lihat manual motherboard tapi biasanya jumper ini terletak disekitar baterai bios).

Pengujian

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Pengujian yang dilakukan ada dua tahap. Tahap pertama, pengujian terhadap kekuatan prosesor dan komponen lainnya. Jika semua komponen mampu melewati Power On Self Test (POST) dan tidak mengalami hang setelah dinyalakan selama 2 jam, misalnya, uji lagi dengan menjalankan beberapa macam aplikasi. Semakin banyak resource yang digunakan aplikasi, akan semakin baik Lalu, ukur kemampuannya menggunakan software-software benchmarking.

Yang sering digunakan biasanya Sisoftware Sandra, 3DMark2001/3DMark03, SysMark 2000/2001/2002, dan Prime95.Jika pengujian berhasil, SELAMAT! Anda telah berhasil melakukan overclock. Jika Anda seorang yang kreatif dan pemberani, Anda dapat mencoba konfigurasi yang lain untuk menentukan konfigurasi yang paling optimal. Benchmark 3DMark2001 pada setting 1024*768 16 bit, pada prinsipnya untuk menguji ketahanan prosesor. Untuk menguji performansi input/output sistem, digunakan pengujian Sysmark 2002, yang akan menjalankan aplikasi MS Word, Excel, Powerpoint, Adobe, dan Corel. Pengujian kestabilan dilakukan dengan demo 3DMark2001 1280*1024 32bit selama 1 jam. Catat skornya, bandingkan dengan skor sebelum di overclock.

Untuk menguji kestabilan, komputer hasil overclock anda harus diuji menggunakan software Prime95, suatu freeware yang terkenal di kalangan overclocker untuk menguji kestabilan prosesor. Software ini melakukan perhitungan matematika yang kompleks, sehingga penggunaan prosesor optimal sampai 100%. Perbedaannya dengan software benchmark lain seperti 3DMark2001, jika prosesor mengalami kegagalan, Prime95 otomatis akan fail. Sedangkan pada 3DMark2001, software tetap jalan, namun ada bintikbintik cacat pada tampilannya. Memang, di kalangan overclocker, Prime95 adalah standar keberhasilan.

Mengoverclock VGA Card

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Sama seperti prosesor,meng-overclock sebuah kartu grafis, sesuai istilahnya, adalah membuat clock pada kartu grafis bekerja melebihi dari spesifikasi yang telah ditetapkan oleh pabrik pembuatnya. Umumnya, overclock kartu grafis dilakukan dengan menaikkan clock dari core (chip VGA-nya) maupun dengan menaikkan clock dari memori yang digunakan. Kombinasi paling baik adalah dengan menaikkan clock dari kedua komponen tersebut, baik core chip yang digunakan maupun memori.

Pada kartu grafis yang memiliki keterbatasan utama pada bandwidth memori, menaikkan clock memori akan memberikan peningkatan lebih signifikan dibandingkan dengan menaikkan clock dari core saja. GeForce2 MX dan variannya adalah kartu grafis yang termasuk dalam jenis yang memiliki bottleneck pada memori. Secara umum meng-overclock memori GeForce2 MX akan memberikan hasil yang lebih signifikan dibandingkan dengan meng-overclock chip nVidianya sendiri. Kartu grafis tipe yang lain, masing-masing memiliki sifat yang berbeda-beda, tergantung dari arsitektur yang digunakan.

Cara Meng-overclock

Untuk melakukan overclock kartu grafis ini, cara yang paling umum adalah melalui software/program yang memang dirancang untuk itu, seperti ATI-Tool, RivaTuner, Rage3DTweak, dan PowerStrip. Seringkali driver yang disertakan bersama kartu grafis telah memiliki fasilitas untuk overclock. Dengan memanfaatkan fasilitas bawaan seperti ini maupun program yang dirancang khusus untuk overclock kartu grafis, Anda dapat menaikkan nilai clock dari core maupun memori hingga mencapai nilai maksimal yang masih dapat diterima dengan baik oleh kartu grafis Anda. Tentu saja, prosedur peningkatannya dilakukan secara perlahan-lahan.

Satu hal yang perlu Anda perhatikan adalah kestabilan dan tampilan dari kartu grafis Anda. Apabila kestabilan telah terganggu maupun gambar yang dihasilkan sudah mulai memiliki artefak yang tidak diinginkan, sebaiknya clock dari core maupun dari memori diturunkan. Pemaksaan nilai clock yang berlebihan dapat merusak kartu grafis secara permanen.

Overclock sendiri biasanya akan mengakibatkan suhu dari kartu grafis menjadi lebih panas dibandingkan dengan kondisi ketika tidak dioverclock. Hal ini dapat menurunkan umur dari kartu grafis itu sendiri. Untuk menambah kestabilan dan membuang panas yang berlebihan, dapat digunakan kipas maupun heatsink tambahan pada kartu grafis yang bersangkutan. Penggantian kipas maupun heatsink yang lama dengan yang lebih bertenaga dan besar dapat juga dilakukan. Penggunaan heatsink dan kipas ini juga bisa diterapkan pada chip memori, tidak terbatas pada chip VGA-nya saja. Sirkulasi udara pada casing juga sebaiknya diperhatikan, kelancaran aliran udara akan membantu perpindahan panas yang terjadi.

Di samping melalui program yang dirancang khusus untuk overclock, overclock ini juga dapat dilakukan melalui BIOS. Overclock melalui BIOS ini biasanya dilakukan dengan mengganti BIOS dari kartu grafis yang digunakan dengan BIOS dari pihak ketiga yang memang dirancang dengan clock yang lebih tinggi. Overclock dengan cara seperti ini tidak terlampau sering dilakukan, berhubung BIOS dari pihak ketiga yang memiliki kriteria seperti yang diinginkan cukup jarang tersedia.

Overclock juga bisa dilakukan melalui BIOS pada mainboard (tidak semua jenis mainboard), khususnya yang memiliki pilihan multiplier untuk bus AGP terhadap Front Side Bus (FSB) yang dapat dipilih secara manual, umumnya 1:2 dan 2:3. Untuk mainboard yang tidak memiliki pilihan seperti ini, mengoverclock bus AGP akan mengoverclock sistem secara keseluruhan. Dengan pilihan 1:2 dan 2:3, Anda bisa meng-overclock bus AGP Anda, hanya saja secara ekstrem.

Sebagai gambaran untuk sistem dengan FSB sebesar 133MHz, multiplier yang digunakan secara default adalah 1:2 sehingga bus AGP adalah 66MHz. Bila multiplier diubah secara manual menjadi 2:3 maka bus AGP akan memiliki clock sebesar 88,67MHz. Tergantung dari kartu grafis yang digunakan, konfigurasi ini bisa saja dapat diterima dengan baik, meskipun bisa juga kestabilan menjadi terganggu atau bahkan sistem tidak mau dinyalakan sama sekali. Satu hal yang harus diingat adalah, konfigurasi seperti ini dapat merusak kartu grafis Anda secara permanen. Risiko dari teknik overclock seperti ini adalah besar, jadi sebaiknya Anda tidak mencobanya kecuali Anda benar-benar mengetahui bahwa kartu grafis Anda dapat menerima konfigurasi clock AGP seperti ini.

Menstabilkan Kartu Grafis Hasil Overclock

Salah satu kawan sejati dari clock yang lebih tinggi adalah panas. Untuk mengatasinya diperlukan pembuangan panas yang baik. Ini bisa diperoleh dengan memasang kipas maupun heatsink tambahan, ataupun mengganti kipas dan heatsink yang lama dengan yang lebih baik lagi. Sirkulasi udara di dalam casing juga harus diperhatikan. Di samping melalui teknik pembuangan panas yang lebih baik seperti telah disebutkan, kestabilan juga dapat diperbaiki dengan menurunkan modus transfer AGP yang digunakan dari 4x ke yang lebih rendah, terutama untuk overclock dengan meningkatkan clock dari bus AGP.

Kestabilan juga kadangkala dipengaruhi oleh driver yang digunakan maupun fitur yang diaktifkan. Ada baiknya driver yang digunakan adalah yang terbaru dan fitur yang digunakan juga fitur-fitur yang standar saja. Keberuntungan juga berperan dalam hal overclock ini. Keberuntungan yang dimaksud di sini berhubungan dengan kualitas dari kartu grafis yang dimiliki. Meskipun kartu grafis yang digunakan adalah sama (misalnya sama-sama GeForce3), batas maksimum dari clock yang dapat diterima oleh masing-masing kartu grafis tidak sama, bisa saja ada yang mencapai 250MHz untuk core-nya, namun ada juga yang hanya hingga 240MHz saja.

Bila Anda ingin menaikkan kinerja kartu grafis Anda secara murah, overclock bisa Anda coba. Hal yang penting sekali untuk diingat adalah risiko dari overclock ini, jangan sampai Anda harus membeli kartu grafis yang baru.

Sebagai catatan akhir, dalam setiap kiat mengoverclock, risiko tetap saja menjadi tanggungan Anda. Dan sebagaimana komentar overclocker pada umumnya, semua hasil yang diberikan dalam overclocking sangat tergantung dari bahan-bahan yang Anda miliki.

Tool (software) pendukung

--------------------------------------------------------------------------------

Anda bisa menggunakan beberapa software bantu dibawah ini yang berkaitan dengan artikel ini.

CPU-Z: http://www.cpuid.org/cpuz.php

CBId: (Central Brain Identifier) http://cbid.amdclub.ru

Prime95: http://www.mersenne.org/freesoft.htm

SiSoftware Sandra: http://www.sisoftware.demon.co.uk/sandra

memtest86+: http://www.memtest86.com, http://www.memtest.org
READ MORE - TIP OVER CLOCK

change the cursor blog

Blog walking to a friend's blog is always worth it. So I say Walking the Beauty Blog. Right, right? Perhaps you have a blog walking to a friend's blog and see when the mouse cursor or pointer is moved to be different with the others. Yes like this in my favorite blog. He he he. There is no change in the computer buddy? That's the practical knowledge I have gained from our friends blog http://mas-debby.blogspot.com/2011/02/cara-merubah-cursor-pada-blog.html Debby mas. So that's where I fare a way to change the look of the cursor on a blog. These tips can also apply it to blogspot or Wordpress blog. Which obviously will not burden your blog really. Meletakkannyapun easy way. Could be in the right side bar, the left or the footer. Which appear later are not in the side bar. Okay to the point that is Changing the Cursor on the blog. Here's how:

1. Login to blogger.com 

2. Click the design of the blog that you will change the cursor 
3. Click Page Element / Layout / Design.
 4. Click Add Gedget / add gadgets. 
5. Choose HTML / Javascript. 
6. Copy and paste this script into the content HTML / Javascript.

< style type = "text / css" >body {cursor: url ("http://i1003.photobucket.com/albums/af158/robotjapan/Kursor.png"), Default}< / style >
7. Finally click Save or Save


Above is a special way for blogspot. How about for your WordPress blog. About the same really.1. Login to your WordPress blog 

2. Click Appearance and Widgets 
3. Gadget Add Text, HTML or Arbitary tezt 
4. Enter the code above. 
5. Click Save to save the


Blog cursor display can be changed with some of the following image. Replace http://i1003.photobucket.com/albums/af158/robotjapan/Kursor.png the above code with the following code:http://i771.photobucket.com/albums/xx357/cebol_01/Kursor.pnghttp://i886.photobucket.com/albums/ac63/AdiSangPemimpi/kursor.pnghttp://i34.photobucket.com/albums/d132/JuL14_ok/pinkbutterflies.gifhttp://i40.photobucket.com/albums/e230/dh34sy/flame.gifhttp://i425.photobucket.com/albums/pp332/hippmibjkt/sym455.jpghttp://i340.photobucket.com/albums/o350/tomrat2212/emon.gifhttp://i872.photobucket.com/albums/ab288/bebe_munya/kursor1.gifhttp://i872.photobucket.com/albums/ab288/bebe_munya/kursor2.gifYou can also change the look of the cursor to create your own made. Good luck
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Tips for novice bloggers ...

Make my friends who had just finished making his blog, usually eager to make his blog into a unique blog, nice views, interesting, it just makes the reader happy and stop by her blog and make the interested reader to want untukmampir again on his blog that, Well, here I will give tips on how to create a unique blog, interesting but not until redirect to ripway.com. Redirctnya Ripway.com and driving is usually a http://pagesinxt.com. Redirect Blogger blog itself is usually due to the use of widgets that contain javascript that gives the order to lead to one url ripway.com. The order was certainly caused by two possibilities:
A. Blog user to enter a specific external widgets into blogs
2. There are other users who accidentally enter the hacking (hopefully not the case) The tips are:
1. Use the widget necessities
2. Use the widget that many people use it. The point is, there is a javascript which, despite being installed but can not be used or do not appear on the blog, allows that the widget contains a redirect. (widgets that can appear on the blog are the chances there ripway.com redirect, let alone that it can not)
3. Carefully when copying javascript. See the link in it, do not have any posts or pagesinxt http://ripway.com it's just three important points that I can give, this is my experience that has also been exposed to redirect ripway.com felt annoyed,
READ MORE - Tips for novice bloggers ...

Cervical cancer kills a woman every hour

Malignancy of cervical cancer the leading cause of death among women in Indonesia. In fact, one woman dies every hour from cervical cancer. That prompted First Lady Ani Yudhoyono launched the "Movement of Women Against Cervical Cancer." "We should pay attention to diseases that can cause death, especially the women themselves," said Ani Susilo Bambang Yudhoyono said in his speech at the House of Pertamina, Jakarta, Thursday (6/10). Cervical cancer is a malignant disease of the cervix (cervical), near the burrow copulations (Miss V). Starting from the cervix, then reached Miss V, and gradually spread if not given treatment. More than 40 years of women's cervical cancer haunt Indonesia, sometimes without us knowing it. Therefore, ditukaskan Ani Yudhoyono, was duly changed woman. Health Minister Dr Endang Rahayu Sedyaningsih added, since 2007, the Ministry of Health has developed a program of early detection of cervical and breast cancer in 14 provinces covering 63 districts / cities. In 2014 expected 25 percent of districts / cities can make early detection of cervical cancer with the goal of 80 percent of eligible women aged 30-50 years. In Asia Pacific, every four minutes a woman dies from cancer seviks. While the average in the world, one woman dies every two minutes. Every woman is at risk of contracting cervical cancer during their lifetime, regardless of age and lifestyle. Both young and adult women at risk of cervical cancer caused by Human Papilloma Virus (HPV). "Cervical cancer is a threat that can be a health burden, mental, financial, and women are affected. Fatal than death. All women can be affected, regardless of socio-economic conditions, the background of life, education, and lifestyle, "he explained. Three years ago, exactly 21 April 2008 in the RS Dharmais, Ani Yudhoyono launched the National Program for Cervical Cancer Early Detection and Breast Cancer. As a acceleration of the achievement of the program, the movement campaigned again today. "I encourage women to change the paradigm of cervical cancer that were previously only wait, if there is a new complaint to the doctor, be proactive and continuous checks early," he added. "Changing lifestyles to be healthier so less likely to get cancer of the cervix, also transform themselves to care about other women who are at risk of cervical cancer," he explained.
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Snails made ​​sausage tasty and full of nutrition

Golden apple snail (Pomacea canaliculata) are known as pests of plants and cause a decline in agricultural production in various regions in Indonesia, it has a good nutrient content, especially low in fat and cholesterol. Fat content in meat snails when compared with chicken turned out pretty far. According to the Management Options for the Golden Apple Snail. Rice Technology Bulletin 2001, No. 33, in 100 grams of golden apple snail meat contained as much as 0.4 grams of fat, while the chicken is much higher fat content is 25 grams per 100 grams in weight (Indonesia Food Composition Table 2009). Low in fat and cholesterol contained by the golden apple snail meat makes these animals potentially as an alternative raw material hypercholesterolemic diet. Hypercholesterolemia is a situation arising due to blood cholesterol levels that exceed normal limits. Flour protein content was also higher than the snail with fish meal. According to Siswanto (1999) in Wardana (2008) snails protein levels are at 50.74% while 30% of fish meal protein (Wardana 2008). Given this and based on the advantages of golden apple snail meat, Miftakhurohmah, Department of Community Nutrition students of Faculty of Human Ecology (FEMA) under the faculty co-Leily IPB Furkon Amalia, S.TP., M.Sc., doing research on the formulation of sausages made from snails meat. According Miftakhurohmah, sausage is the perfect snails consumed by the public, especially patients with hypercholesterolemia as an alternative to low-fat and cholesterol menu. "Sausage snails innovative menu is expected to be a safe and healthy," he said. The reason why the choice fell on the sausage, because sausage according Miftakhurohmah is one type of food that many in the community, and is a practical as well as food products that do not require a long time to serve. But the sausage is outstanding so far proved to have a high fat content. The method begins with the formulation of research sausage snails, followed by organoleptic tests to determine the best formulation. Of sausage formulations tested selected nutrient content of the ash content, water, protein, fat, and cholesterol. From the analysis carried out, the fat content is obtained at 8.56 grams per 100 grams, this number is low Raw materials such as sausage meat snails snails, chicken, soy protein isolate, cooking oil, salt, garlic, tapioca flour and ice water. Making products sausage snails performed in the Laboratory Experiments Food, Department of Community Nutrition IPB, while the nutrient analysis conducted in the Macro Nutrient Analysis Laboratory Materials, Department of Community Nutrition IPB. For cholesterol analyzes performed in the Great Hall of Agro Industry, Bogor. Standard formula sausage snails refers to the modification of the ASEAN-CANADA Project 1995 for the manufacture of chicken sausages. Sausage is a sausage made with chicken meat substitute. Snails meat used is beef cooked snails. "It needed a more precise method for making sausage snails are more homogeneous dough and need to find ways of eliminating the typical fishy odor that is difficult to remove snails. Also needed are more trained panelists in the organoleptic test in order to obtain accurate results of organoleptic, "concluded Miftakhurohmah
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laughter is good for the body

Scientists in Britain said proved that laughter, loud and long, to be good for our bodies. Professor Robin Dunbar is an evolutionary psychologist at the University of Oxford. Research on laughter, as cited VoAnews, published in the journal Proceedings of the Royal Society of Biological Sciences. Dunbar examines volunteers to see how their bodies react to funny things and to things that are fun, although not necessarily to be funny. He showed the video to the object of his research. At first, they watch programs like sports, then they were shown video clips which is really funny for fifteen minutes, a television program designed to make people laugh hard. After completion of this program, Dunbar examine their reactions to pain. He put ice on the hands of the volunteers to find out how long they can withstand the extreme cold. Some volunteer arm squeezed hard ..... and harder. Some of them asked to use the gymnastics equipment to make them move faster and faster. Dunbar found that people who laugh loud and long able to withstand pain 10 percent longer than the other. He concluded that when we laugh so hard - some call it a laugh from the belly - our brain to release chemicals called endorphins. Endorphins are not just causing a sense of fun, but also reduces pain.
How volunteers are laughing, it is also important. Poor ... giggling or laughing "ha, ha, ha" simple does not have a significant impact. A loud laugh from the belly, in turn, causes the release of endorphins in greater numbers and ease the pain a lot more. Scientists argue that the endorphins produced in the greatest amount when we laugh cause abdominal muscles to move hard. When this happens, people usually say "I can not stop laughing, until the abdominal pain" Professor Dunbar also believe that laughter is important for our ancestors thousands of years ago. He called it "an early mechanism for social bonding glue". He said that laughter helps people to form groups that are increasingly large.
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ree sex because many Japanese women do not marry

Thousands of young Japanese do not have a boyfriend and many are not married, according to a survey issued by the government. The results of a survey about sex and marriage that showed more than 60% of men aged between 18-34 years while half of unmarried women at that age do not have a boyfriend. The percentage was higher than the same survey in 2005. More than a quarter of men surveyed and 23% of women said they would not even find a girlfriend. Many of them have no reason for raising money, while others say it is impossible to find a boyfriend after passing the age of 25 years. A large number of women surveyed said their own lives better for them than to marry and establish homes. The survey also showed more than a quarter of men and women aged between 35-39 years old who are not married say they have never had sex. The number of people who get married in Japan than in the declining steadily in the 1970s. Japan's birth rate is lowest in the world and causes the population will shrink dramatically in the middle of this century. The Japanese government conducted a survey on sex and marriage every five years.
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physical activity that children can make a child's achievement

In this latest study, researchers from the VU University Medical Center in Amsterdam combines the results of previous studies from North America and South Africa, including approximately 55 000 children aged 6 to 18 years. In the so-called 'systematic reviews' top-14 study, the researchers found a link between physical activity and the development of academic performance. "Based on the results of our study, we can conclude that physically active beneficial to academic performance," said Amrika Singh, chairman of the researcher team. Amika Singh, said there might be a biological explanation for linking physical activity with achievement in school. "First, a physiological explanation, such as if more and more blood flow, the more oxygen to the brain. Physically active means more production of hormones such as endorphins. Endorphins reduce stress levels and feeling better, which means our performance is also better, "he said.
In addition, for those of physical activity exercise regularly, learn the rules and how to follow it can improve behavior and concentration in class. Due to various differences between these studies, according to Singh, it is impossible to know whether the frequency or type of activity affect the extent to which many academic improvement. But, in terms of these general findings, that children who are physically active may be great achievements, Singh said that educators should consider before reducing the fitness programs in schools. Amike Singh article on the relationship between physical activity and school performance published in the journal "Archives of Pediatric and Adolescent Medicine."
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