web hosting is the practice of using an Internet server to link websites stored on a hard drive to the Internet. All websites across the Internet are hosted on such Internet servers. There are countless web hosts that offer a myriad of services, from dedicated support of a single website to mass public offerings of small websites crowded onto single servers. Many companies are now looking at reselling web hosting in order to earn additional revenue during this recession.
Reseller web hosting is not much different from standard web hosting. A standard web host will rent an Internet server or own its own server on location. They will have full physical and digital access to this server to do with it as they please. This gives them a large degree of control over the services that they offer. It is also a lot of work.
Reseller web hosts rent web space from these standard web hosts. However, resellers rent the space with the intent of turning around and renting that same space out to someone else at a profit. Essentially, a reseller web host is a middle man in the Internet website hosting industry.
While the practice is ethically questionable, there are certain beneficial services that a reseller web host can offer. For instance, they might offer a level of personal service that cannot be matched by larger companies. They might also combine their web hosting offer with their other products and/or services, such as website design or business consulting. Basically, reseller web hosts thrive by offering alternate services that either complement or are complemented by the web hosting. This is the main way in which they differ from standard web hosts.
Reseller web hosts look for a lot of different things when they are initially renting out their space. Generally, they will go to a web host that specializes in offering reseller services. This first web host will give the reseller a large amount of space and bandwidth with a specially designed control panel that will allow the reseller to delegate out the space, bandwidth, and other services as they see fit.
Traditionally, reseller web hosting has been a relatively limited practice. It has only been used by those with previous experience with web hosting that are just looking to augment their services. Recently, reseller web hosting has experienced an influx of small- to medium-sized businesses looking for an additional source of profit
Thursday, October 8, 2009
Best Web Hosting Services
The Best Web Hosting Service Dreamz hosting We are offering different kind of Web Hosting solutions which will be good fit for your needs. We specialized in Linux Hosting, Joomla Hosting, Wordpress Hosting, and Moodle Hosting,and offering range of plans which can be fit in any kind of budgets.
The internet business is one that is quite interesting because of the various dynamics going on in the business simultaneously with each other. There are so many people interested in so many things when it comes to the best web hosting that quite often so many people really don’t focus on any one aspect in order to achieve the results that they want. A very good example of this is in the case of web hosting. Words like top, best, great, good and other descriptive terms are the words that tend to be used in terms of discussing web hosting, rather than very objective statistics that actually show the worthiness of a particular web hosting website.
The internet business is one that is quite interesting because of the various dynamics going on in the business simultaneously with each other. There are so many people interested in so many things when it comes to the best web hosting that quite often so many people really don’t focus on any one aspect in order to achieve the results that they want. A very good example of this is in the case of web hosting. Words like top, best, great, good and other descriptive terms are the words that tend to be used in terms of discussing web hosting, rather than very objective statistics that actually show the worthiness of a particular web hosting website.
GoDaddy the largest web hosting domain
GoDaddy is one of the largest web hosting and domain registration companies in the world. It was founded in 1997, and as of 2009, it had more than 36 million domain names that it managed – this is 3 times more than its closest competitor. I have used GoDaddy for several years for my web hosting and domain registrations, so I wanted to detail what I like and don’t like about GoDaddy.
I like their prices. OK, so they may not have the cheapest prices in town, but I have not found better prices with a company that looked as professional and safe as GoDaddy. I might could have saved a dollar or two, but to me it wasn’t worth the risk of dealing with a company that I did not know.
I like their quick response. If I want to setup a new domain on my hosting account, or add a new database, or create a sub-domain, it usually only takes 20-30 minutes for those changes to take affect. I don’t have to wait 12 hours, 24 hours, or even more that some companies require.
I love their customer service. Every time I call, I get a quick answer and very professional service. The technicians are knowledgeable and have understood exactly what I needed each time. I think that every company in the world should go through the same customer service training that GoDaddy employees go through – that is how much I like their customer service.
What I don’t like is there slow interface. Seems like is takes forever to get where I need to go with their user interface. Just about every click seems to take a good 10-15 seconds to respond. It is a good thing that I only have to make changes once, or I would lose patience in a hurry!
I like their prices. OK, so they may not have the cheapest prices in town, but I have not found better prices with a company that looked as professional and safe as GoDaddy. I might could have saved a dollar or two, but to me it wasn’t worth the risk of dealing with a company that I did not know.
I like their quick response. If I want to setup a new domain on my hosting account, or add a new database, or create a sub-domain, it usually only takes 20-30 minutes for those changes to take affect. I don’t have to wait 12 hours, 24 hours, or even more that some companies require.
I love their customer service. Every time I call, I get a quick answer and very professional service. The technicians are knowledgeable and have understood exactly what I needed each time. I think that every company in the world should go through the same customer service training that GoDaddy employees go through – that is how much I like their customer service.
What I don’t like is there slow interface. Seems like is takes forever to get where I need to go with their user interface. Just about every click seems to take a good 10-15 seconds to respond. It is a good thing that I only have to make changes once, or I would lose patience in a hurry!
Want To Choose The Best Web Hosting ..
1- Disk Space: Every web hosting provider make different plans with different spaces, some of them are UNLIMITED and the other are LIMITED by specific gigs. You can choose your disk space according to your amount of space that your website and your work requires.
2- Data Transfer [Bandwidth]: You also need to see if the hosting company provides you with sufficient bandwidth for efficient data transfer or not. you only who can define that. if you have website for media, graphic, clips or images, so you have to choose the hosting plan that has high gigs of bandwidth not to face problem with days.
3- Dependence And Support: The biggest companies have online service 24x7. So you have to make sure firstly that the company which you will deal with it have this service. Make sure if they are responing to your issue rapidly or not ! and if you can depend on them in solving any problem may face you.
4- FTP access: FTP access is very crucial since it provides the ability to upload new pages. Some web hosting service providers allow you to just design your web pages with their own personal web builder. This may be useful for beginners however you need to ensure if they provide you the facility to expand later when you enhance your online business capabilities.
5- Degree of reliability, security and speed of access: Speed, security and reliability are extremely important for the success of any online business. While choosing a reliable web hosting service you need to ensure that this is taken care of. A site that is not available, not updated on time or is down, will lose many online visitors. If an online visitor finds your site listed on a search engine, and he tries to access it but finds it down, he is sure to move on to the next link and you lose an important customer or visitor.
2- Data Transfer [Bandwidth]: You also need to see if the hosting company provides you with sufficient bandwidth for efficient data transfer or not. you only who can define that. if you have website for media, graphic, clips or images, so you have to choose the hosting plan that has high gigs of bandwidth not to face problem with days.
3- Dependence And Support: The biggest companies have online service 24x7. So you have to make sure firstly that the company which you will deal with it have this service. Make sure if they are responing to your issue rapidly or not ! and if you can depend on them in solving any problem may face you.
4- FTP access: FTP access is very crucial since it provides the ability to upload new pages. Some web hosting service providers allow you to just design your web pages with their own personal web builder. This may be useful for beginners however you need to ensure if they provide you the facility to expand later when you enhance your online business capabilities.
5- Degree of reliability, security and speed of access: Speed, security and reliability are extremely important for the success of any online business. While choosing a reliable web hosting service you need to ensure that this is taken care of. A site that is not available, not updated on time or is down, will lose many online visitors. If an online visitor finds your site listed on a search engine, and he tries to access it but finds it down, he is sure to move on to the next link and you lose an important customer or visitor.
Web hosting Technology Overview
Have you ever wondered how the technology that powers the Internet and the web actually works? There are specific protocols in place that allow web surfers to find the pages they're looking for and see them in the way their builders intended. Keep reading to find out how the net keeps running smoothly.
Millions of people surf the Internet every day. There are literally billions of web pages opened up and read, all at the blink of an eye. The technology that drives the World Wide Web is simply incredible; humans cannot truly appreciate the magnitude and scope of it. There is simply too much going on all at the same time for us to imagine.
However, we do know how the technology that drives “web surfing” works. Most people do not take the time to stop and think about it, but the Internet was manufactured by humans. It seems to have taken on a life of its own, but it is still run and maintained by ordinary people all over the world.
The fact that the World Wide Web is man made does not detract from how amazing it is; in fact, it is even more incredible that we could have put something like this together in such a short period of time. It is also wonderful that it has become such an integral part of our lives that we do not even give it any thought. We take the Internet for granted: this wonderful combination of servers and databases that gives us websites is simply a tool that the vast majority of us use on a daily basis.
Sometimes it is hard to believe that the World Wide Web can be provided by machines sitting in cold rooms around the world. Anyone with a bit of networking and web experience knows the basic technology that goes into the process. However, without research, it is very difficult to translate that knowledge into the actual process. How is it possible that billions of page views can be handled by these machines?
There are plenty of other questions that arise for the uninformed. How do domain names work? What does a web server do with a page request? What does the user’s computer do with the page when it gets it? These are all questions that are easy to answer, but very few people actually take the time to look into them.
Millions of people surf the Internet every day. There are literally billions of web pages opened up and read, all at the blink of an eye. The technology that drives the World Wide Web is simply incredible; humans cannot truly appreciate the magnitude and scope of it. There is simply too much going on all at the same time for us to imagine.
However, we do know how the technology that drives “web surfing” works. Most people do not take the time to stop and think about it, but the Internet was manufactured by humans. It seems to have taken on a life of its own, but it is still run and maintained by ordinary people all over the world.
The fact that the World Wide Web is man made does not detract from how amazing it is; in fact, it is even more incredible that we could have put something like this together in such a short period of time. It is also wonderful that it has become such an integral part of our lives that we do not even give it any thought. We take the Internet for granted: this wonderful combination of servers and databases that gives us websites is simply a tool that the vast majority of us use on a daily basis.
Sometimes it is hard to believe that the World Wide Web can be provided by machines sitting in cold rooms around the world. Anyone with a bit of networking and web experience knows the basic technology that goes into the process. However, without research, it is very difficult to translate that knowledge into the actual process. How is it possible that billions of page views can be handled by these machines?
There are plenty of other questions that arise for the uninformed. How do domain names work? What does a web server do with a page request? What does the user’s computer do with the page when it gets it? These are all questions that are easy to answer, but very few people actually take the time to look into them.
Web Hosting Goes Green
If you’re of the opinion that going green is just a “fad,” think again. The green movement is gaining popularity and finding its way into all aspects of our lives, from the food we eat to the websites we view. That’s right; the websites we choose to view and support can now have a major affect on the environment as well.
The Internet already seems pretty environmentally friendly; it allows information pertaining to sustainable living to spread like wildfire without the use of paper or anything else that could end up in a landfill. Some websites, though, are going the extra mile to help this new environmental movement that is aimed at making our world a better place for future generations.
The Internet already seems pretty environmentally friendly; it allows information pertaining to sustainable living to spread like wildfire without the use of paper or anything else that could end up in a landfill. Some websites, though, are going the extra mile to help this new environmental movement that is aimed at making our world a better place for future generations.
Web hosting (Canada)
It may be that Canada isn't at the top of the web hosting game, but clearly from reading this article you should see that they are on the march. If any of the reasons I mentioned pique your interest, using a Canadian web host would be a low risk, high reward business venture. After all, they are our friendly neighbors to the north and most of them do speak English.
When I think of Canada, I think of an extremely progressive nation politically and scientifically. It's no wonder that they're one of the leaders in the communications and technologies industry. An example of this would be how they host the IT360ยบ Conference & Expo every year, which leads Canada in providing IT professionals with a unique IT experience. The event focuses on four key industry elements: Network, Linux/Open Source, Storage, and Security. In an industry that never stops growing, Canada is right there with the biggest names in IT.
When I think of Canada, I think of an extremely progressive nation politically and scientifically. It's no wonder that they're one of the leaders in the communications and technologies industry. An example of this would be how they host the IT360ยบ Conference & Expo every year, which leads Canada in providing IT professionals with a unique IT experience. The event focuses on four key industry elements: Network, Linux/Open Source, Storage, and Security. In an industry that never stops growing, Canada is right there with the biggest names in IT.
Hints for finding the best free web hosting service
Generally it is best not to choose a free hosting package with more features than you need, and also check to see if the company somehow receives revenue from the free hosting itself to keep it in business. As already mentioned, it is best to try to get accepted to a more selective free host if possible. Look at other sites hosted there to see what kind of ads are on your site, and the server speed (keep in mind newer hosts will be faster at first). Read the Terms of Service (TOS) and host features to make sure it has enough bandwidth for your site, large webspace and file size limit, and any scripting options you might need. Read free webspace reviews and ratings by other users on free hosting directories. If you don't have your own domain name, you might want to use a free URL forwarding service so you can change your site's host if needed.
Web hosting is mandatory to remain within the competitive business arena
This is the time of online communication and none of us can deny the convenience of electronic commerce. The web hosting companies
are now offering attractive options for the corporations seeking online presence. The web hosting companies are plenty and selection of a proper website hosting company is essential. Searching for an affordable option is easy now as there are plenty of shared hosting
facilities on offer. Still, it is worth mentioning that the reputed companies use dedicated servers that support only their own website.
The web based service providers of Australia have come up with alluring web hosting solutions; it is a good idea to take a quick look on the available web hosting solutions. VPS server or use of the virtual private server is indeed an interesting way of using the serer. There remain concepts like green hosting as well, it is nothing but resembles eco friendly web hosting. Cloud computing is becoming a popular concept, there are several ways of using a server, when a server is used for considerably less span of time it is called cloud computing.
The popular website hosting companies provide details and rates with comprehensive quotes. Free consultation offered by various web companies helps us to know more about web hosting. At times, special sites are launched just to provide information related to some events. These sites are necessary for a limited span of time and for these sites cloud computing concepts are powerful. By visiting a nearby reputed web design company it is possible to get all the details. For any sort of businesses website hosting is nowadays mandatory. Necessity of web space might differ and for this it is best to seek consultation of the professional web hosting providers to get idea about the required web space. It is worth mentioning that requirement of web space may vary.
are now offering attractive options for the corporations seeking online presence. The web hosting companies are plenty and selection of a proper website hosting company is essential. Searching for an affordable option is easy now as there are plenty of shared hosting
facilities on offer. Still, it is worth mentioning that the reputed companies use dedicated servers that support only their own website.
The web based service providers of Australia have come up with alluring web hosting solutions; it is a good idea to take a quick look on the available web hosting solutions. VPS server or use of the virtual private server is indeed an interesting way of using the serer. There remain concepts like green hosting as well, it is nothing but resembles eco friendly web hosting. Cloud computing is becoming a popular concept, there are several ways of using a server, when a server is used for considerably less span of time it is called cloud computing.
The popular website hosting companies provide details and rates with comprehensive quotes. Free consultation offered by various web companies helps us to know more about web hosting. At times, special sites are launched just to provide information related to some events. These sites are necessary for a limited span of time and for these sites cloud computing concepts are powerful. By visiting a nearby reputed web design company it is possible to get all the details. For any sort of businesses website hosting is nowadays mandatory. Necessity of web space might differ and for this it is best to seek consultation of the professional web hosting providers to get idea about the required web space. It is worth mentioning that requirement of web space may vary.
Recommended free web hosts
It would be awfully hard to recommend any free web space host and someone not like it, as different people need different web hosting features and have different priorities, and the webhosting quality may change over time. Also some people want free domain hosting (you own the domain), and others might not be able to buy a domain name. Here are some of the most recommended free web hosts, and their main features.
50Webs (http://www.50webs.com/) gives you a URL such as http://you.50webs.com/ (or you can use your own domain name), and offers 60 MB webspace, POP3 email, and unlimited bandwidth. You can upload via a file manger or FTP import. There are no ads or popups placed on your hosted web pages. You can setup multiple addon domains and subdomains under the same web hosting account.
Tripod (http://www.tripod.lycos.com/) is controversial. Many people hate the ads they put on your site or its other limitations, but it is one of the oldest and most reliable free web hosts. They give you 20 MB webspace, a subdomain, file manager and editor, and webpage statistics. The bandwidth limit is 1 GB/month. You can upload several file types such as RealAudio, RealVideo, Flash, MP3, and Java; and CGI/Perl, SSI, and FrontPage Server Extensions scripting is supported.
50Webs (http://www.50webs.com/) gives you a URL such as http://you.50webs.com/ (or you can use your own domain name), and offers 60 MB webspace, POP3 email, and unlimited bandwidth. You can upload via a file manger or FTP import. There are no ads or popups placed on your hosted web pages. You can setup multiple addon domains and subdomains under the same web hosting account.
Tripod (http://www.tripod.lycos.com/) is controversial. Many people hate the ads they put on your site or its other limitations, but it is one of the oldest and most reliable free web hosts. They give you 20 MB webspace, a subdomain, file manager and editor, and webpage statistics. The bandwidth limit is 1 GB/month. You can upload several file types such as RealAudio, RealVideo, Flash, MP3, and Java; and CGI/Perl, SSI, and FrontPage Server Extensions scripting is supported.
Can you really get FREE web hosting?
Yes, there are hundreds of free hosting web sites, as far as not having to pay any money to have your website hosted. Generally they either cost you in time, web hosting restrictions, or modifying your free web pages by adding popups, banners, or other adverts. When looking for free web hosting (especially on search engines), you should beware that there are also a large number of commercial web hosts that claim to offer free hosting services, but those often have a catch, such as paying an excessive amount for a domain name or other service, and therefore aren't really free. The free free hosting guide below will give you some tips for finding the right free webhosting comapny for you
How do the free web hosts make money?
The free website hosts often make money in other ways, such as putting banners, popups, or popunders ads on your free webpages. Some free web hosting companies do not put ads on your site, but require you as the webmaster to click on banners in their control panel or signup process, or just display banners in the file manager in hopes you will click them. Some lure visitors with free hosting in hopes you will upgrade and pay for advanced features. A few send you occasional emails with ads, or may even sell your email address. A new method that is becoming popular is requiring a certain number of "quality" forum posting, usually as a means of getting free content for them and thereby being able to display more ads to their website visitors.
Sunday, September 27, 2009
Identifying Trending & Range-Bound Currencies
The overall forex market generally trends more than the overall stock market. Why? The equity market, which is really a market of many individual stocks, is governed by the micro dynamics of particular companies. The forex market, on the other hand, is driven by macroeconomic trends that can sometimes take years to play out. These trends best manifest themselves through the major pairs and the commodity block currencies. Here we take a look at these trends, examining where and why they occur. Then we also look at what types of pairs offer the best opportunities for range-bound trading.
The Majors
There are only four major currency pairs in forex, which makes it a quite easy to follow the market. They are:
EUR/USD - euro / U.S. dollar
USD/JPY - U.S. dollar / Japanese yen
GBP/USD - British pound / U.S. dollar
USD/CHF - U.S. dollar / Swiss franc
It is understandable why the United States, the European Union and Japan would have the most active and liquid currencies in the world, but why the United Kingdom? After all, as of 2005, India has a larger GDP ($3.3 trillion vs. $1.7 trillion for the U.K.), while Russia's GDP ($1.4 trillion) and Brazil's GDP ($1.5 trillion) almost match U.K.'s total economic production. The explanation, which applies to much of the forex market, is tradition. The U.K. was the first economy in the world to develop sophisticated capital markets and at one time it was the British pound, not the U.S. dollar, that served as the world's reserve currency. Because of this legacy and because of London's primacy as the center of global forex dealing, the pound is still considered one of the major currencies of the world.
The Swiss franc, on the other hand, takes its place amongst the four majors because of Switzerland's famed neutrality and fiscal prudence. At one time the Swiss franc was 40% backed by gold, but to many traders in the forex market it is still known as "liquid gold". In times of turmoil or economic stagflation, traders turn to the Swiss franc as a safe-haven currency.
The largest major pair - in fact the single most liquid financial instrument in the world - is the EUR/USD. This pair trades almost $1 trillion per day of notional value from Tokyo to London to New York 24 hours a day, five days a week. The two currencies represent the two largest economic entities in the world: the U.S. with an annual GDP of $11 trillion and the Eurozone with a GDP of about $10.5 trillion.
Although U.S. economic growth has been far better than that of the Eurozone (3.1% vs.1.6%), the Eurozone economy generates net trade surpluses while the U.S. runs chronic trade deficits. The superior balance-sheet position of the Eurozone and the sheer size of the Eurozone economy has made the euro an attractive alternative reserve currency to the dollar. As such, many central banks including Russia, Brazil and South Korea have diversified some of their reserves into euro. Clearly this diversification process has taken time as do many of the events or shifts that affect the forex market. That is why one of the key attributes of successful trend trading in forex is a longer-term outlook.
The Majors
There are only four major currency pairs in forex, which makes it a quite easy to follow the market. They are:
EUR/USD - euro / U.S. dollar
USD/JPY - U.S. dollar / Japanese yen
GBP/USD - British pound / U.S. dollar
USD/CHF - U.S. dollar / Swiss franc
It is understandable why the United States, the European Union and Japan would have the most active and liquid currencies in the world, but why the United Kingdom? After all, as of 2005, India has a larger GDP ($3.3 trillion vs. $1.7 trillion for the U.K.), while Russia's GDP ($1.4 trillion) and Brazil's GDP ($1.5 trillion) almost match U.K.'s total economic production. The explanation, which applies to much of the forex market, is tradition. The U.K. was the first economy in the world to develop sophisticated capital markets and at one time it was the British pound, not the U.S. dollar, that served as the world's reserve currency. Because of this legacy and because of London's primacy as the center of global forex dealing, the pound is still considered one of the major currencies of the world.
The Swiss franc, on the other hand, takes its place amongst the four majors because of Switzerland's famed neutrality and fiscal prudence. At one time the Swiss franc was 40% backed by gold, but to many traders in the forex market it is still known as "liquid gold". In times of turmoil or economic stagflation, traders turn to the Swiss franc as a safe-haven currency.
The largest major pair - in fact the single most liquid financial instrument in the world - is the EUR/USD. This pair trades almost $1 trillion per day of notional value from Tokyo to London to New York 24 hours a day, five days a week. The two currencies represent the two largest economic entities in the world: the U.S. with an annual GDP of $11 trillion and the Eurozone with a GDP of about $10.5 trillion.
Although U.S. economic growth has been far better than that of the Eurozone (3.1% vs.1.6%), the Eurozone economy generates net trade surpluses while the U.S. runs chronic trade deficits. The superior balance-sheet position of the Eurozone and the sheer size of the Eurozone economy has made the euro an attractive alternative reserve currency to the dollar. As such, many central banks including Russia, Brazil and South Korea have diversified some of their reserves into euro. Clearly this diversification process has taken time as do many of the events or shifts that affect the forex market. That is why one of the key attributes of successful trend trading in forex is a longer-term outlook.
Forex News Trading: The latest marketing wizardry in the forex market
I want to explain to you how so-called News Trading is the latest method devised by the marketing wizards to take your money.
The more subtle marketing wizards package it very scientifically. They use impressive looking historical statistics to show how price action unfolded immediately after certain economic data releases. See the pattern, they trumpet, and make money from it.
The less subtle approach explains how to beat the gun with proprietary data feeds on supposedly important data releases. In reality, most of these data releases have never had any significant impact on the forex market before, but despite this, the marketing wizards invite you to join them in the shoot-out by paying a monthly subscription in the belief that this will help you beat the market makers.
Before I go any further in showing you how to really lose your money, your mind and your interest in this most lucrative market, let me just tell you why I think you can pay attention to what I have to say on the topic. Apart from the fact that I describe in my book, Bird Watching in Lion Country – Retail Forex Trading Explained (BWILC), the absolute necessity of real-time analysis and the folly of basing a trading strategy for the long-term on very short-term technical analysis indicators - or other illusionary patterns - I also explain a term which I coined: “relational analysis”. This simply means that, if you are trading forex, you have to relate three things all the time: price, time and events.
News trading as a concept has mainly to do with “events” and specifically with those anticipated events that cause prices to move more than usual, but only briefly - brief even in terms of short-term trading. News trading as offered by the marketing wizards takes this concept and then distorts it to rob you of your money.
Non-farm payrolls: March 1998
My mentor is an institutional bond trader who has a simple view on technical analysis: “if the prices are high, it may be time to sell and if the prices are low it may be a time to buy”. (He amusingly referred to traders’ screens filled with every conceivable squiggle, line and indicator as Playboys – dirty pictures.)
The point he was making is that trading decisions were not made based on technical analysis other than for the basic positioning it could give you as regards where the price is now, relative to where it has been recently. If you are closely monitoring the market you will have a feel for this anyway, but charts are helpful for a quick snapshot picture.
Noting and being acutely aware of upcoming economic data releases was one of the main elements of his analysis and approach to understanding the market and price action. This is what he based his trading decisions on. At the time I started trading in 1998 I was only vaguely aware of things like CPI, PPI, trade balance, money supply, and unemployment – all the things that give economists and analysts that warm and fuzzy feeling – but I quickly acquired an interest, figured out what each of them meant and started using the Sunday papers’ business section to monitor releases and follow the comments.
The more subtle marketing wizards package it very scientifically. They use impressive looking historical statistics to show how price action unfolded immediately after certain economic data releases. See the pattern, they trumpet, and make money from it.
The less subtle approach explains how to beat the gun with proprietary data feeds on supposedly important data releases. In reality, most of these data releases have never had any significant impact on the forex market before, but despite this, the marketing wizards invite you to join them in the shoot-out by paying a monthly subscription in the belief that this will help you beat the market makers.
Before I go any further in showing you how to really lose your money, your mind and your interest in this most lucrative market, let me just tell you why I think you can pay attention to what I have to say on the topic. Apart from the fact that I describe in my book, Bird Watching in Lion Country – Retail Forex Trading Explained (BWILC), the absolute necessity of real-time analysis and the folly of basing a trading strategy for the long-term on very short-term technical analysis indicators - or other illusionary patterns - I also explain a term which I coined: “relational analysis”. This simply means that, if you are trading forex, you have to relate three things all the time: price, time and events.
News trading as a concept has mainly to do with “events” and specifically with those anticipated events that cause prices to move more than usual, but only briefly - brief even in terms of short-term trading. News trading as offered by the marketing wizards takes this concept and then distorts it to rob you of your money.
Non-farm payrolls: March 1998
My mentor is an institutional bond trader who has a simple view on technical analysis: “if the prices are high, it may be time to sell and if the prices are low it may be a time to buy”. (He amusingly referred to traders’ screens filled with every conceivable squiggle, line and indicator as Playboys – dirty pictures.)
The point he was making is that trading decisions were not made based on technical analysis other than for the basic positioning it could give you as regards where the price is now, relative to where it has been recently. If you are closely monitoring the market you will have a feel for this anyway, but charts are helpful for a quick snapshot picture.
Noting and being acutely aware of upcoming economic data releases was one of the main elements of his analysis and approach to understanding the market and price action. This is what he based his trading decisions on. At the time I started trading in 1998 I was only vaguely aware of things like CPI, PPI, trade balance, money supply, and unemployment – all the things that give economists and analysts that warm and fuzzy feeling – but I quickly acquired an interest, figured out what each of them meant and started using the Sunday papers’ business section to monitor releases and follow the comments.
Rollovers in Forex
Even though the mighty US dominates many markets, most of Spot Forex is still traded through London in Great Britain. So for our next description we shall use London time. Most deals in Forex are done as Spot deals. Spot deals are nearly always due for settlement two business days later. This is referred to as the value date or delivery date. On that date the counter parties theoretically take delivery of the currency they have sold or bought.
In Spot FX the majority of the time the end of the business day is 21:59 (London time). Any positions still open at this time are automatically rolled over to the next business day, which again finishes at 21:59.
This is necessary to avoid the actual delivery of the currency. As Spot FX is predominantly speculative most of the time the traders never wish to actually take delivery of the currency. They will instruct the brokerage to always rollover their position.
Many of the brokers nowadays do this automatically and it will be in their policies and procedures. The act of rolling the currency pair over is known as tom.next, which stands for tomorrow and the next day.
Just to go over this again, your broker will automatically rollover your position unless you instruct him that you actually want delivery of the currency. Another point noting is that most leveraged accounts are unable to actually deliver the currency as there is insufficient capital there to cover the transaction.
Remember that if you are trading on margin, you have in effect got a loan from your broker for the amount you are trading. If you had a 1 lot position you broker has advanced you the $100,000 even though you did not actually have $100,000. The broker will normally charge you the interest differential between the two currencies if you rollover your position. This normally only happens if you have rolled over the position and not if you open and close the position within the same business day.
To calculate the broker's interest he will normally close your position at the end of the business day and again reopen a new position almost simultaneously. You open a 1 lot ($100,000) EUR/USD position on Monday 15th at 11:00 at an exchange rate of 0.9950.
During the day the rate fluctuates and at 22:00 the rate is 0.9975. The broker closes your position and reopens a new position with a different value date. The new position was opened at 0.9976 - a 1 pip difference. The 1 pip deference reflects the difference in interest rates between the US Dollar and the Euro.
In our example your are long Euro and short US Dollar. As the US Dollar in the example has a higher interest rate than the Euro you pay the premium of 1 pip.
Now the good news. If you had the reverse position and you were short Euros and long US Dollars you would gain the interest differential of 1 pip. If the first named currency has an overnight interest rate lower than the second currency then you will pay that interest differential if you bought that currency. If the first named currency has a higher interest rate than the second currency then you will gain the interest differential.
To simplify the above. If you are long (bought) a particular currency and that currency has a higher overnight interest rate you will gain. If you are short (sold) the currency with a higher overnight interest rate then you will lose the difference.
I would like to emphasise here that although we are going a little in-depth to explain how all this works, your broker will calculate all this for you. The purpose of this article is just to give you an overview of how the forex market works
In Spot FX the majority of the time the end of the business day is 21:59 (London time). Any positions still open at this time are automatically rolled over to the next business day, which again finishes at 21:59.
This is necessary to avoid the actual delivery of the currency. As Spot FX is predominantly speculative most of the time the traders never wish to actually take delivery of the currency. They will instruct the brokerage to always rollover their position.
Many of the brokers nowadays do this automatically and it will be in their policies and procedures. The act of rolling the currency pair over is known as tom.next, which stands for tomorrow and the next day.
Just to go over this again, your broker will automatically rollover your position unless you instruct him that you actually want delivery of the currency. Another point noting is that most leveraged accounts are unable to actually deliver the currency as there is insufficient capital there to cover the transaction.
Remember that if you are trading on margin, you have in effect got a loan from your broker for the amount you are trading. If you had a 1 lot position you broker has advanced you the $100,000 even though you did not actually have $100,000. The broker will normally charge you the interest differential between the two currencies if you rollover your position. This normally only happens if you have rolled over the position and not if you open and close the position within the same business day.
To calculate the broker's interest he will normally close your position at the end of the business day and again reopen a new position almost simultaneously. You open a 1 lot ($100,000) EUR/USD position on Monday 15th at 11:00 at an exchange rate of 0.9950.
During the day the rate fluctuates and at 22:00 the rate is 0.9975. The broker closes your position and reopens a new position with a different value date. The new position was opened at 0.9976 - a 1 pip difference. The 1 pip deference reflects the difference in interest rates between the US Dollar and the Euro.
In our example your are long Euro and short US Dollar. As the US Dollar in the example has a higher interest rate than the Euro you pay the premium of 1 pip.
Now the good news. If you had the reverse position and you were short Euros and long US Dollars you would gain the interest differential of 1 pip. If the first named currency has an overnight interest rate lower than the second currency then you will pay that interest differential if you bought that currency. If the first named currency has a higher interest rate than the second currency then you will gain the interest differential.
To simplify the above. If you are long (bought) a particular currency and that currency has a higher overnight interest rate you will gain. If you are short (sold) the currency with a higher overnight interest rate then you will lose the difference.
I would like to emphasise here that although we are going a little in-depth to explain how all this works, your broker will calculate all this for you. The purpose of this article is just to give you an overview of how the forex market works
Taking Profits
So much time is spent on entering a trade. Today I want to focus on some exit strategies. This is not a full Fibonacci course, so if you don't understand the basics I suggest that you visit my website for help with those aspects.
Human nature makes trading very challenging. Sometimes you want to exit a trade too quickly when it goes against you, and to cling on to a winner too long. Too often a winning trade will reverse, taking back most of your profits, or even going into a loss. On the other hand if you exit too soon, you risk missing some big profits. You may find that you're sitting on the sidelines while the market continues well beyond your exit.
In this lesson I'll show you how to bank those profits before they turn against you.
Human nature makes trading very challenging. Sometimes you want to exit a trade too quickly when it goes against you, and to cling on to a winner too long. Too often a winning trade will reverse, taking back most of your profits, or even going into a loss. On the other hand if you exit too soon, you risk missing some big profits. You may find that you're sitting on the sidelines while the market continues well beyond your exit.
In this lesson I'll show you how to bank those profits before they turn against you.
Choosing a Forex Broker
As you may already know, foreign exchange (Forex/FX) is an unregulated market that is not traded on an exchange, which means that prices you see and get from one broker could vary from those of another broker. There are mainly two types of brokers. One type is an ECN (Electronic Communications Network) and another a Market-Maker.
Market-makers "make" or set the prices on their systems based on what they think is best for themselves as the counter-party. This is because every time you sell, they must buy, and when you buy, they must sell to you. This is why they can give you a fixed spread since they are setting both the bid and the ask price. Many of them will then try to "hedge" or "cover" your order by passing it on to someone else; however, some may decide to hold your order, and thus trade against you. This can result in a conflict of interest between the retail trader (you) and the market-maker.
ECNs, on the other hand, pass on prices from several banks and market-makers, as well as from the other traders in the ECN, and display the best bid/ask prices based on these input. This is why sometimes you can get no spread on ECNs, especially in very liquid currency pairs. How do ECNs make money then? They do so by charging you a fixed commission for each transaction.
Market-makers "make" or set the prices on their systems based on what they think is best for themselves as the counter-party. This is because every time you sell, they must buy, and when you buy, they must sell to you. This is why they can give you a fixed spread since they are setting both the bid and the ask price. Many of them will then try to "hedge" or "cover" your order by passing it on to someone else; however, some may decide to hold your order, and thus trade against you. This can result in a conflict of interest between the retail trader (you) and the market-maker.
ECNs, on the other hand, pass on prices from several banks and market-makers, as well as from the other traders in the ECN, and display the best bid/ask prices based on these input. This is why sometimes you can get no spread on ECNs, especially in very liquid currency pairs. How do ECNs make money then? They do so by charging you a fixed commission for each transaction.
Foreign Exchange Market
The foreign exchange (currency or forex or FX) market exists wherever one currency is traded for another. It is by far the largest market in the world, in terms of cash value traded, and includes trading between large banks, central banks, currency speculators, multinational corporations, governments, and other financial markets and institutions. Retail traders (small speculators) are a small part of this market. They may only participate indirectly through brokers or banks and may be targets of forex scams.
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Friday, September 25, 2009
An Ideal College freshers
AN ideal college freshman must be relaxed. One must conserve his or her energy in preparation for the grueling two years with majors. That is specially essential if you are taking a technical course such as Management Accounting or Electronics and Communications Engineering.
If you have been a model in high school or a ballet dancer and you’ve been continuing to do these things, then do so if you are still a college freshman. That won’t affect your studies because most subjects in the first two years in college are just reviews of what you had taken in high school. In other words, the lessons
are still fresh in one’s mind such as trigonometry, biology, religious studies and other what-have-yous.
If you are a scholar, then that’s better. But be aware that there is a grade cap in each subject that you have to cope, otherwise you’ll lose your scholarship. If you are an athlete or a cheerleader and your college tuition is funded through this athletic scholarship , then you must maintain your performance so that you won’t lose your scholarship. See more on how to cope with college life here in StuVu. This is your ticket to an exciting college life.
If you have been a model in high school or a ballet dancer and you’ve been continuing to do these things, then do so if you are still a college freshman. That won’t affect your studies because most subjects in the first two years in college are just reviews of what you had taken in high school. In other words, the lessons
are still fresh in one’s mind such as trigonometry, biology, religious studies and other what-have-yous.
If you are a scholar, then that’s better. But be aware that there is a grade cap in each subject that you have to cope, otherwise you’ll lose your scholarship. If you are an athlete or a cheerleader and your college tuition is funded through this athletic scholarship , then you must maintain your performance so that you won’t lose your scholarship. See more on how to cope with college life here in StuVu. This is your ticket to an exciting college life.
Make Your College Life Exciting
COLLEGE can be a lonely place especially if you come from a rural town and your girlfriend or your friends won’t go with you to college. Staying in a boarding school may help but we’d like to introduce to you an online feature which can maximize your college fun.
Of course, we’d like to emphasize that StuVu must not replace your study time but during lonely times when there is nothing else to unwind about, StuVu is a great alternative. Here in StuVu, you can meet new friends. Who knows, you’ll find your new love here in StuVu.
When you create a profile here in StuVu, you’ll have the capability to upload exciting pictures, videos and every procrastination and rant that you have via the StuVu blog. Of course , that includes entries vividly describing how the atmosphere in each classroom/college professor/instructor looks like and how facilities from one campus vary with the other in that particular community that you are enrolled in. Students also get to discuss what the happenings in the place are as well as the trendy sororities recommended. Another feature in StuVu is students helping out one another in tackling difficult lessons
Of course, we’d like to emphasize that StuVu must not replace your study time but during lonely times when there is nothing else to unwind about, StuVu is a great alternative. Here in StuVu, you can meet new friends. Who knows, you’ll find your new love here in StuVu.
When you create a profile here in StuVu, you’ll have the capability to upload exciting pictures, videos and every procrastination and rant that you have via the StuVu blog. Of course , that includes entries vividly describing how the atmosphere in each classroom/college professor/instructor looks like and how facilities from one campus vary with the other in that particular community that you are enrolled in. Students also get to discuss what the happenings in the place are as well as the trendy sororities recommended. Another feature in StuVu is students helping out one another in tackling difficult lessons
Sunday, August 2, 2009
Intel Core 2 Extreme quad-core processor
When more is better-with four processing cores the Intel Core 2 Extreme processor delivers unrivaled¹ performance for the latest, greatest generation of multi-threaded games and multimedia apps.Now with a new version based on Intel's cutting edge 45nm technology utilizing hafnium-infused circuitry to deliver even greater performance and power efficiency. The Intel® Core™2 Extreme processor QX9770 running at 3.2 GHz delivers the best possible experience for today's most demanding users.
12 MB of total L2 cache
1600 MHz front side bus
Intel® Network Processors
Built on a high-performance fully programmable architecture, Intel network processors offer the speed, flexibility, and ease-of-use/reuse you need to accelerate time-to-market, extend time-in-market, and to enable a broad range of services from the customer premises to the core of the network. Network processors optimized for home, small-to-medium enterprise, and networked embedded applications. Flexible wire-speed processing for OC-3 to OC-12 multiservice network applications.
The Intel® IXC1100 control plane processor extends the benefits of Intel XScale® technology, including its rich set of development tools, to meet the processing needs of multi-service switches, VoIP media gateways, wireless infrastructure and other networking equipment.The information on this page is provided for the benefit of customers with existing designs.
12 MB of total L2 cache
1600 MHz front side bus
Intel® Network Processors
Built on a high-performance fully programmable architecture, Intel network processors offer the speed, flexibility, and ease-of-use/reuse you need to accelerate time-to-market, extend time-in-market, and to enable a broad range of services from the customer premises to the core of the network. Network processors optimized for home, small-to-medium enterprise, and networked embedded applications. Flexible wire-speed processing for OC-3 to OC-12 multiservice network applications.
The Intel® IXC1100 control plane processor extends the benefits of Intel XScale® technology, including its rich set of development tools, to meet the processing needs of multi-service switches, VoIP media gateways, wireless infrastructure and other networking equipment.The information on this page is provided for the benefit of customers with existing designs.
Intel Core 2 Quad Q6600
There's no doubt that 2006 was one of the most incredible years in technology in recent memory. There were scandals, impressive landscape-shifting mergers, strange new alliances and many new products and technologies unveiled. One launch that stands out in everyone's mind is Intel's Conroe last summer. We were teased with leaked benchmark results and other information months before the release and once the launch finally hit, we were all relieved to see that it actually lived up to the hype.
After a launch like this, we didn't think that a follow-up would arrive for a while. We were wrong. In the early fall, we first learned about Intel's quad-core CPU, which is essentially two Conroes under the same IHS. I admit, I didn't expect to actually see it so soon, but come November, it was publicly available for anyone to purchase. Intel's at the top of their game, and don't want to step down anytime soon.
When they first launched their QX6700, they held off launching the Q6600 until early January. We don't know the reason for the delay, but now the possibility of having your own quad-core machine without breaking the bank has finally arrived. Let's first get the basics out of the way.
Oh My Quad
The Q6600 is a 2.4GHz chip, like its little brother the E6600. Both CPUs are nearly identical and use the same die(s), except that the Q6600 has two of them. Essentially, everything is doubled. Twice the cores, twice the cache and twice the drool. Like the other Core 2 Duos, Core 2 Quads are based on a 65nm process, although the process requires a slightly higher stock voltage. Since both the Quads are so similar to the Duos, it's no surprise to see that the die size is simply doubled as well, resulting in 2 x 143mm^2.
When compared to the top of the line QX6700 chip, the specs are again identical except for the 2.66GHz clock speed. Other than that, the CPUs are the same, just binned differently. When comparing to the top end Core 2 Duo, the differences are a lot more meaningful. While the QX6700 retails for just under $1,000, so does the X6800. However, when considering the QX6700, you receive a lower clock speed in return for twice the cores. At that point, it's up to you whether you want or need the sheer clock speed or greater benefits for your multi-thread applications.
To help put everything into perspective, here's a simple graph showcasing all of Intel's current Core 2 offerings.
CPU Model
Clock Speed
FSB
L2 Cache
TDP
Cores
Pricing
Intel Core 2 Extreme QX6700 2.66GHz 1066MHz 4MB x 2 130w 4 $999
Intel Core 2 Extreme X6800 2.93GHz 1066MHz 4MB 75W 2 $999
Intel Core 2 Quad Q6600 2.40GHz 1066MHz 4MB x 2 105W 4 $851
Intel Core 2 Duo E6700 2.66GHz 1066MHz 4MB 65W 2 $530
Intel Core 2 Duo E6600 2.40GHz 1066MHz 4MB 65W 2 $316
Intel Core 2 Duo E6400 2.13GHz 1066MHz 2MB 65W 2 $224
Intel Core 2 Duo E6300 1.86GHz 1066MHz 2MB 65W 2 $183
Intel Core 2 Duo E4300 1.80GHz 800MHz 2MB 65W 2 $163
One interesting point to note is that even though the Q6600 is essentially 2 x E6600, the TDP is not doubled, but rather sits at a comfortable 105W. The higher clocked QX6700 is 130W, however, which is why we don't see a QX6800 instead. A TDP of 130W is high to begin with, but considering the much slower 820 D we reviewed less than a year ago also had a TDP of 130W, power consumption still hasn't entered uncharted territory, and there are thermal solutions available to deal with that kind of heat.
Below, you can see a highly detailed illustration of the quad-core's innards. In case you thought that two dies would be a tight squeeze, think again! Despite having four cores, there's still a reasonable amount of breathing room in there. For a more realistic view of the chip with the HS off, you can check out the picture provided by Intel
After a launch like this, we didn't think that a follow-up would arrive for a while. We were wrong. In the early fall, we first learned about Intel's quad-core CPU, which is essentially two Conroes under the same IHS. I admit, I didn't expect to actually see it so soon, but come November, it was publicly available for anyone to purchase. Intel's at the top of their game, and don't want to step down anytime soon.
When they first launched their QX6700, they held off launching the Q6600 until early January. We don't know the reason for the delay, but now the possibility of having your own quad-core machine without breaking the bank has finally arrived. Let's first get the basics out of the way.
Oh My Quad
The Q6600 is a 2.4GHz chip, like its little brother the E6600. Both CPUs are nearly identical and use the same die(s), except that the Q6600 has two of them. Essentially, everything is doubled. Twice the cores, twice the cache and twice the drool. Like the other Core 2 Duos, Core 2 Quads are based on a 65nm process, although the process requires a slightly higher stock voltage. Since both the Quads are so similar to the Duos, it's no surprise to see that the die size is simply doubled as well, resulting in 2 x 143mm^2.
When compared to the top of the line QX6700 chip, the specs are again identical except for the 2.66GHz clock speed. Other than that, the CPUs are the same, just binned differently. When comparing to the top end Core 2 Duo, the differences are a lot more meaningful. While the QX6700 retails for just under $1,000, so does the X6800. However, when considering the QX6700, you receive a lower clock speed in return for twice the cores. At that point, it's up to you whether you want or need the sheer clock speed or greater benefits for your multi-thread applications.
To help put everything into perspective, here's a simple graph showcasing all of Intel's current Core 2 offerings.
CPU Model
Clock Speed
FSB
L2 Cache
TDP
Cores
Pricing
Intel Core 2 Extreme QX6700 2.66GHz 1066MHz 4MB x 2 130w 4 $999
Intel Core 2 Extreme X6800 2.93GHz 1066MHz 4MB 75W 2 $999
Intel Core 2 Quad Q6600 2.40GHz 1066MHz 4MB x 2 105W 4 $851
Intel Core 2 Duo E6700 2.66GHz 1066MHz 4MB 65W 2 $530
Intel Core 2 Duo E6600 2.40GHz 1066MHz 4MB 65W 2 $316
Intel Core 2 Duo E6400 2.13GHz 1066MHz 2MB 65W 2 $224
Intel Core 2 Duo E6300 1.86GHz 1066MHz 2MB 65W 2 $183
Intel Core 2 Duo E4300 1.80GHz 800MHz 2MB 65W 2 $163
One interesting point to note is that even though the Q6600 is essentially 2 x E6600, the TDP is not doubled, but rather sits at a comfortable 105W. The higher clocked QX6700 is 130W, however, which is why we don't see a QX6800 instead. A TDP of 130W is high to begin with, but considering the much slower 820 D we reviewed less than a year ago also had a TDP of 130W, power consumption still hasn't entered uncharted territory, and there are thermal solutions available to deal with that kind of heat.
Below, you can see a highly detailed illustration of the quad-core's innards. In case you thought that two dies would be a tight squeeze, think again! Despite having four cores, there's still a reasonable amount of breathing room in there. For a more realistic view of the chip with the HS off, you can check out the picture provided by Intel
Intel Core 2 Duo E8400 3.0GHz - Wolfdale Arrives
In the summer of 2006, Intel released their 65nm Conroe-based processors, and to say they won the hearts of many would be an understatement. It was one product-launch that Intel didn't want to hit lightly, especially since AMD were actively taking from their customer base - on the enthusiast side, most notably. When said and done, Intel did accomplish what they planned to do. They put the industry through a blender and showed us how to be excited about processors again.
Although frequencies with Conroe were not as high as what we were used to seeing from Intel, the folks in Santa Clara proved that a high frequency didn't mean much if the processor itself was inefficient. Indeed, a 2.4GHz Conroe Dual-Core proved just how much better an efficient processor could be, and it quickly became the most common processor choice for the enthusiast.
The following summer, follow-up processors were released, including the E6750 Dual-Core which we evaluated at the time. Besides speed bumps, those processors didn't bring much to the table in way of new features, except for native 1333FSB support. Instead, the processor we are taking a look at today is one of the few new models that effectively replace the Conroe-based chips that we came to love so dearly in summer of '06.
I won't delve deep into how 45nm improves on 65nm, as I explained all of that in our QX9650 review, but I will touch on things briefly. One large benefit that comes with all die shrinks is better power efficiency and lower temperatures. Chips have the capability to run just as fast, if not faster, than their predecessors, all while running cooler and drawing less power. It's a win/win situation.
But with 45nm, Intel introduced more than just a die shrink. The biggest feature that most people will be interested in is the SSE4 instruction set. It affects media-buffs only - those who encode videos - but the performance gains are so evident, that developers of such applications are bound to begin supporting it sooner than later. The speed increases could be as large as 2x, even though it's difficult to believe.
Other improvements include increased L2 cache, half-multipliers (eg, 9.5x), a faster front-side-bus, improved Super Shuffle Engine, Smart Cache (to improve how split loads are accessed and stored) and so many transistors on a single die, it can give people headaches to think about it!
The obvious downside of the QX9650 launch in November was the fact that no other processors complimented it. Therefore, it was QX9650 or bust - until now that is. During CES earlier this month, Intel officially announced their 45nm launch plans, which include the desktop side, server and also mobile. We found out at that time that the Quad-Core models (Q9300 - Q9550) were pushed back to sometime in Q1. Although a solid date was never settled on, original road maps showed January as the scheduled launch. However, the rumor is that due to poor performing Phenom Quad-Core sales, Intel decided to hold off on the launch to help push remaining 65nm models to consumers first.
So how does the road map stand now that some time has past? Although Intel announced near-immediate availability of all 45nm desktop Dual-Cores at CES, only the E8400 has shown up on e-tailers. One popular e-tailer has the other models listed for availability in April. How true that is, I'm unsure, but it's strange given the fact that they were supposed to be available by now.
Processor Name
Cores
Clock
Cache
FSB
TDP
1Ku Price
Available
Intel Core 2 Extreme QX9775
4
3.20GHz
2 x 6MB
1600MHz
150W
$1,499
Q1 2008
Intel Core 2 Extreme QX9770
4
3.20GHz
2 x 6MB
1600MHz
136W
$1,399
Q1 2008
Intel Core 2 Extreme QX9650
4
3.0GHz
2 x 6MB
1333MHz
130W
$999
Now
Intel Core 2 Quad Q9550
4
2.86GHz
2 x 6MB
1333MHz
95W
$530
Q1 2008
Intel Core 2 Quad Q9450
4
2.66GHz
2 x 6MB
1333MHz
95W
$316
Q1 2008
Intel Core 2 Quad Q9300
4
2.5GHz
2 x 3MB
1333MHz
95W
$266
Q1 2008
Intel Core 2 Duo E8500
2
3.16GHz
6MB
1333MHz
65W
$266
Jan 2008
Intel Core 2 Duo E8400
2
3.00GHz
6MB
1333MHz
65W
$183
Now
Intel Core 2 Duo E8200
2
2.66GHz
6MB
1333MHz
65W
$163
Jan 2008
Intel Core 2 Duo E8190
2
2.66GHz
6MB
1333MHz
65W
$163
Jan 2008
The biggest downside to the road map is that the Q9xxx are not available. Once they are, they are no doubt going to sell like hotcakes, given the improvements over the previous generation and the fact that the prices do not increase. The upside, though, is that even though the E8400 is the lone desktop Dual-Core to be available right now, we can be happy that it is the model most people would be after.
What makes the E8400 such a great choice is the fact that it's affordable, at $220USD on average, and has a nice clock speed. Let's face it... where overclocking is not concerned, having a 3.0GHz CPU looks better to the ego than say, 2.66GHz. It's all about the smooth frequencies, baby.
Although frequencies with Conroe were not as high as what we were used to seeing from Intel, the folks in Santa Clara proved that a high frequency didn't mean much if the processor itself was inefficient. Indeed, a 2.4GHz Conroe Dual-Core proved just how much better an efficient processor could be, and it quickly became the most common processor choice for the enthusiast.
The following summer, follow-up processors were released, including the E6750 Dual-Core which we evaluated at the time. Besides speed bumps, those processors didn't bring much to the table in way of new features, except for native 1333FSB support. Instead, the processor we are taking a look at today is one of the few new models that effectively replace the Conroe-based chips that we came to love so dearly in summer of '06.
I won't delve deep into how 45nm improves on 65nm, as I explained all of that in our QX9650 review, but I will touch on things briefly. One large benefit that comes with all die shrinks is better power efficiency and lower temperatures. Chips have the capability to run just as fast, if not faster, than their predecessors, all while running cooler and drawing less power. It's a win/win situation.
But with 45nm, Intel introduced more than just a die shrink. The biggest feature that most people will be interested in is the SSE4 instruction set. It affects media-buffs only - those who encode videos - but the performance gains are so evident, that developers of such applications are bound to begin supporting it sooner than later. The speed increases could be as large as 2x, even though it's difficult to believe.
Other improvements include increased L2 cache, half-multipliers (eg, 9.5x), a faster front-side-bus, improved Super Shuffle Engine, Smart Cache (to improve how split loads are accessed and stored) and so many transistors on a single die, it can give people headaches to think about it!
The obvious downside of the QX9650 launch in November was the fact that no other processors complimented it. Therefore, it was QX9650 or bust - until now that is. During CES earlier this month, Intel officially announced their 45nm launch plans, which include the desktop side, server and also mobile. We found out at that time that the Quad-Core models (Q9300 - Q9550) were pushed back to sometime in Q1. Although a solid date was never settled on, original road maps showed January as the scheduled launch. However, the rumor is that due to poor performing Phenom Quad-Core sales, Intel decided to hold off on the launch to help push remaining 65nm models to consumers first.
So how does the road map stand now that some time has past? Although Intel announced near-immediate availability of all 45nm desktop Dual-Cores at CES, only the E8400 has shown up on e-tailers. One popular e-tailer has the other models listed for availability in April. How true that is, I'm unsure, but it's strange given the fact that they were supposed to be available by now.
Processor Name
Cores
Clock
Cache
FSB
TDP
1Ku Price
Available
Intel Core 2 Extreme QX9775
4
3.20GHz
2 x 6MB
1600MHz
150W
$1,499
Q1 2008
Intel Core 2 Extreme QX9770
4
3.20GHz
2 x 6MB
1600MHz
136W
$1,399
Q1 2008
Intel Core 2 Extreme QX9650
4
3.0GHz
2 x 6MB
1333MHz
130W
$999
Now
Intel Core 2 Quad Q9550
4
2.86GHz
2 x 6MB
1333MHz
95W
$530
Q1 2008
Intel Core 2 Quad Q9450
4
2.66GHz
2 x 6MB
1333MHz
95W
$316
Q1 2008
Intel Core 2 Quad Q9300
4
2.5GHz
2 x 3MB
1333MHz
95W
$266
Q1 2008
Intel Core 2 Duo E8500
2
3.16GHz
6MB
1333MHz
65W
$266
Jan 2008
Intel Core 2 Duo E8400
2
3.00GHz
6MB
1333MHz
65W
$183
Now
Intel Core 2 Duo E8200
2
2.66GHz
6MB
1333MHz
65W
$163
Jan 2008
Intel Core 2 Duo E8190
2
2.66GHz
6MB
1333MHz
65W
$163
Jan 2008
The biggest downside to the road map is that the Q9xxx are not available. Once they are, they are no doubt going to sell like hotcakes, given the improvements over the previous generation and the fact that the prices do not increase. The upside, though, is that even though the E8400 is the lone desktop Dual-Core to be available right now, we can be happy that it is the model most people would be after.
What makes the E8400 such a great choice is the fact that it's affordable, at $220USD on average, and has a nice clock speed. Let's face it... where overclocking is not concerned, having a 3.0GHz CPU looks better to the ego than say, 2.66GHz. It's all about the smooth frequencies, baby.
intel Core 2 Duo E6750 Preview
it hasn't been a full year since we saw Intel launch their Core 2 Duo processors, but we will soon be seeing a line-up refresh. This is one product that really needs no introduction, but seeing as this is a refresh, refreshing everyones minds seems appropriate. Intel launched the Core 2 Duo to much fanfare last July. Months prior to this, enthusiasts were drooling over leaks of performance reports, which fortunately, turned out to be right on the money.
The entire Conroe line-up is built on a 65nm process, with the mainstream products offering 4MB of L2 cache. Improved over the previous Pentium 4/Pentium D line-up was better power efficiency resulting in a lower TDP and better overall temperatures. This is appreciated, as two cores under the same IHS can potentially create an unwanted room heater.
All but the lowest end Core 2 Duos take advantage of a 1066FSB. This is where this refreshed line-up comes into play, as it ushers in 1333FSB computing. This noticeable speed bump is all done while retaining the same TDP.
All Conroe 1333FSB processors are identified by by a 50 at the end of the product name, hence E6750, which is effectively taking over the spot of the E6700. Nothing has changed except for the FSB and speeds, except the ratio of course, which had to be altered in order to compliment the upgraded frequency.
One thing that should be cleared up is that most overclocking enthusiasts have already accomplished the same speeds we are seeing today, with most being exceeded. In fact, there is nothing stopping anyone from popping in an E6600 and overclocking using a 333FSB and 8 multiplier. That would effectively give you the exact same speed as the E6750 we are taking a look at today.
You might be wondering where the benefit is, with this official speed bump. Primarily it will benefit those non-overclockers most. There is no comparison to equal processor speed at 1066FSB and 1333FSB. That added FSB frequency should make a much more noticeable performance difference than the CPU frequency boost itself.
The entire Conroe line-up is built on a 65nm process, with the mainstream products offering 4MB of L2 cache. Improved over the previous Pentium 4/Pentium D line-up was better power efficiency resulting in a lower TDP and better overall temperatures. This is appreciated, as two cores under the same IHS can potentially create an unwanted room heater.
All but the lowest end Core 2 Duos take advantage of a 1066FSB. This is where this refreshed line-up comes into play, as it ushers in 1333FSB computing. This noticeable speed bump is all done while retaining the same TDP.
All Conroe 1333FSB processors are identified by by a 50 at the end of the product name, hence E6750, which is effectively taking over the spot of the E6700. Nothing has changed except for the FSB and speeds, except the ratio of course, which had to be altered in order to compliment the upgraded frequency.
One thing that should be cleared up is that most overclocking enthusiasts have already accomplished the same speeds we are seeing today, with most being exceeded. In fact, there is nothing stopping anyone from popping in an E6600 and overclocking using a 333FSB and 8 multiplier. That would effectively give you the exact same speed as the E6750 we are taking a look at today.
You might be wondering where the benefit is, with this official speed bump. Primarily it will benefit those non-overclockers most. There is no comparison to equal processor speed at 1066FSB and 1333FSB. That added FSB frequency should make a much more noticeable performance difference than the CPU frequency boost itself.
Intel® Core™2 Duo Desktop Processor
— For the Intel® Core™2 Duo Desktop Processor E6000ฮ and E4000ฮ sequences, Intel® Pentium® Dual-Core Processor E2000ฮ sequence and Intel® Pentium® 4 Processor 6x1ฮ sequence at 65 W
Depending on the type of system and the chassis characteristics, new system and component designs may be required to provide adequate cooling for the processor. The goal of this document is to provide an understanding of these thermal characteristics and discuss guidelines for meeting the thermal requirements imposed on single processor systems using the Intel® Core™2 Duo desktop processor E6000/E4000ฮ sequences, Intel® Pentium® Dual Core Processor E2000ฮ sequence, and Intel® Pentium® 4 Processor 6x1ฮ Sequence.
The concepts given in this document are applicable to any system form factor. Specific examples used will be the Intel enabled reference solution for ATX/uATX systems. See the applicable BTX form factor reference documents to design a thermal solution for that form factor.
64-bit computing on Intel architecture requires a computer system with a processor, chipset, BIOS, operating system, device drivers and applications enabled for Intel® 64 architecture. Processors will not operate (including 32-bit operation) without an Intel® 64 architecture-enabled BIOS. Performance will vary depending on your hardware and software configurations. Consult with your system vendor for more information.
ฮ Intel® processor numbers are not a measure of performance. Processor numbers differentiate features within each processor family, not across different processor families. See www.intel.com/products/processor_number/ for details.
‡ Not all specified units of this processor support Enhanced Intel SpeedStep® Technology. See the Processor Spec Finder at processorfinder.intel.com or contact your Intel representative for more information.
± Intel® Virtualization Technology (Intel® VT), Intel® Trusted Execution Technology (Intel® TXT), and Intel® 64 architecture require a computer system with a processor, chipset, BIOS, enabling software and/or operating system, device drivers and applications designed for these features. Performance will vary depending on your configuration. Contact your vendor for more information.
° Enabling Execute Disable Bit functionality requires a PC with a processor with Execute Disable Bit capability and a supporting operating system. Check with your PC manufacturer on whether your system delivers Execute Disable Bit functionality.
Depending on the type of system and the chassis characteristics, new system and component designs may be required to provide adequate cooling for the processor. The goal of this document is to provide an understanding of these thermal characteristics and discuss guidelines for meeting the thermal requirements imposed on single processor systems using the Intel® Core™2 Duo desktop processor E6000/E4000ฮ sequences, Intel® Pentium® Dual Core Processor E2000ฮ sequence, and Intel® Pentium® 4 Processor 6x1ฮ Sequence.
The concepts given in this document are applicable to any system form factor. Specific examples used will be the Intel enabled reference solution for ATX/uATX systems. See the applicable BTX form factor reference documents to design a thermal solution for that form factor.
64-bit computing on Intel architecture requires a computer system with a processor, chipset, BIOS, operating system, device drivers and applications enabled for Intel® 64 architecture. Processors will not operate (including 32-bit operation) without an Intel® 64 architecture-enabled BIOS. Performance will vary depending on your hardware and software configurations. Consult with your system vendor for more information.
ฮ Intel® processor numbers are not a measure of performance. Processor numbers differentiate features within each processor family, not across different processor families. See www.intel.com/products/processor_number/ for details.
‡ Not all specified units of this processor support Enhanced Intel SpeedStep® Technology. See the Processor Spec Finder at processorfinder.intel.com or contact your Intel representative for more information.
± Intel® Virtualization Technology (Intel® VT), Intel® Trusted Execution Technology (Intel® TXT), and Intel® 64 architecture require a computer system with a processor, chipset, BIOS, enabling software and/or operating system, device drivers and applications designed for these features. Performance will vary depending on your configuration. Contact your vendor for more information.
° Enabling Execute Disable Bit functionality requires a PC with a processor with Execute Disable Bit capability and a supporting operating system. Check with your PC manufacturer on whether your system delivers Execute Disable Bit functionality.
Intel Latest Technology
In the 'Tick, Tock' model, Tock means a new CPU architecture every two years followed by the Tick which means die-shrinkWhile the world is still talking about Intel's shift from 45nm to 32nm, Intel has gone one step ahead and added a 22nm 8-core processor micro-architecture to their design roadmap.At the Intel Developer Forums, Intel talked about their 'Tick, Tock' model of chip development, transition from 45nm to 32nm and also briefed about the 22nm chip design plans. This update comes in the wake of Intel's talks with regional R&D engineers, who shared the project status for next 5 years. A French site called CanardPlus managed to grab the slide from Intel Developer Forum.In the 'Tick, Tock' model, Tock means a new CPU architecture every two years followed by the Tick which means die-shrink. Intel has announced the 45nm Nehalem's successor called Westmere (previously Nehalem-c) on 32nm die-shrink due for release in 2009. Westmere's special feature is the 8-core CPU design where each core will have its own 512 KB L2 cache, and general divided 16 MB cache at the third level.During 2011-12, Intel plans to release 'Ivy Bridge' as the first 22nm chip in 2011, and then follow it up with the 22nm micro-architecture, code named Haswell, that will carry 8-cores in 2012. The Ivy Bridge will be released after 'Sandy Bridge' (previously named Gesher) from the 32nm micro-architecture in 2010.Source: Techtree.com
Intel Amd Servers
Intel vs AMD servers. Which processor is best for a web hosting server?
If you go to any dedicated server provider, you will see server offers for both AMD and Intel processor based servers. So which one is better for your website or web hosting company? This question is hard to answer because it is dependent on a lot of variables; but I will try my best to give a decisive answer.
AMD and Intel have always been in close competition over the last decade. Whenever Intel was winning, AMD would catch up and overtake Intel. After awhile Intel would catch back up with AMD and overtake them. A competitive market at it’s finest! Anyway, back in 2002-2006 if you would have asked me which I thought was better, I would have said AMD. However, since Intel released its Core2 based processors, I will have to go with Intel for the time being. That is for now…it’s only a matter of time before AMD releases its next generation processor to take back its claim.
Over the years I have purchased dozens of servers in all kinds of configurations – dual core AMD, single core AMD, dual core dual proc AMD, single core Intel, dual core Intel, etc. Even though I give raw server processing ability and power to Intel, AMD still has some advantages.
AMD: better Low – Medium end servers – Best bang for the buck
If you have outgrown your shared web hosting plan or your VPS plan, it is time to upgrade to a dedicated server. The only problem is that there is a big price jump between VPS and a dedicated server. For that reason, I suggest that you start out on a Single Processor AMD server. The price for AMD based equipment tends to be lower which in turn lowers the monthly cost of the server. A comparable low end Intel machine usually costs $30-50/m more than your low end AMD server. AMD also has advantages on certain process types. For instance, AMD can run Java based applications better than the comparable Intel server.
Intel – High End Servers – Raw Power house
Out of all the high end web hosting servers that I have purchased, my dual proc dual core Xeon servers have always outperformed my high end AMD Opteron servers. When it comes to raw power and data/number crunching, Intel takes the cake. Compared to Opteron processors, Xeon processors have a much larger processor cache. This higher CPU bandwidth allows the machine to process more at a quicker rate than the comparable AMD. For this reason, Intel can run MySQL, Email, PHP, and other services faster than the AMD. Since these services are usually the center of most hosting businesses, I think Intel makes the better web hosting server. I also think that Intel servers are slightly more reliable than AMD because the other hardware in the server is usually perfected for Intel based processors. AMD is a smaller company so other hardware vendors spend more work and effort perfecting their hardware for Intel based machines.
If you go to any dedicated server provider, you will see server offers for both AMD and Intel processor based servers. So which one is better for your website or web hosting company? This question is hard to answer because it is dependent on a lot of variables; but I will try my best to give a decisive answer.
AMD and Intel have always been in close competition over the last decade. Whenever Intel was winning, AMD would catch up and overtake Intel. After awhile Intel would catch back up with AMD and overtake them. A competitive market at it’s finest! Anyway, back in 2002-2006 if you would have asked me which I thought was better, I would have said AMD. However, since Intel released its Core2 based processors, I will have to go with Intel for the time being. That is for now…it’s only a matter of time before AMD releases its next generation processor to take back its claim.
Over the years I have purchased dozens of servers in all kinds of configurations – dual core AMD, single core AMD, dual core dual proc AMD, single core Intel, dual core Intel, etc. Even though I give raw server processing ability and power to Intel, AMD still has some advantages.
AMD: better Low – Medium end servers – Best bang for the buck
If you have outgrown your shared web hosting plan or your VPS plan, it is time to upgrade to a dedicated server. The only problem is that there is a big price jump between VPS and a dedicated server. For that reason, I suggest that you start out on a Single Processor AMD server. The price for AMD based equipment tends to be lower which in turn lowers the monthly cost of the server. A comparable low end Intel machine usually costs $30-50/m more than your low end AMD server. AMD also has advantages on certain process types. For instance, AMD can run Java based applications better than the comparable Intel server.
Intel – High End Servers – Raw Power house
Out of all the high end web hosting servers that I have purchased, my dual proc dual core Xeon servers have always outperformed my high end AMD Opteron servers. When it comes to raw power and data/number crunching, Intel takes the cake. Compared to Opteron processors, Xeon processors have a much larger processor cache. This higher CPU bandwidth allows the machine to process more at a quicker rate than the comparable AMD. For this reason, Intel can run MySQL, Email, PHP, and other services faster than the AMD. Since these services are usually the center of most hosting businesses, I think Intel makes the better web hosting server. I also think that Intel servers are slightly more reliable than AMD because the other hardware in the server is usually perfected for Intel based processors. AMD is a smaller company so other hardware vendors spend more work and effort perfecting their hardware for Intel based machines.
Intel® Core™ 2 Duo Processor E4600
Difference Between Intel core 2 duo vs Intel dual core vs Intel Pentium D
Many people are confused what exactly the difference between Intel Core 2 Duo Processors and Between Intel Pentium D or Intel Dual Core processors….
I would try to explain from a END user point a view rather not going in to details architecture over view…
The Simple facts are,
All Core 2 Duo Processors are Dual Core Processors..
All Pentium D Processors are Dual Core Processors..
All Intel Dual Core Processors are Dual Core Processors…
Pentium D is nothing but 2 Prescott Processors side by side… runs very hot, not a good OverClocker…
Intel Core 2 Duo processors are next gen processors from Intel on 65 nm platform… developed from Ground up with new Architecture called Core… so they are whole new Processors just Jump like Pentium 2 to Pentium 3 or Pentium 4… Expect one Core 2 Duo Lowest End Processors like E4400/E4300 taking up and beating Intel Pentium D 3.8 GHz ones with ease … runs damn cool and super over clocker…
Intel Dual Core Processors are just launched striped down version of Core 2 Duos.. there are 2 in Market for Desktop range, E2140 runs at 1.6 GHz with 1 MB L2 and 800 MHz FSB and E2160 with 1.8 GHz with same specs of E2140…. these are not Pentium D rather they are same batch like Core 2 Duo based on the new Core Technology…. they perform same like Core 2 Duos but they were launched with a very low price to counter the market of super low cost but high performer AMD X2 range line up to AMD X2 4000
Many people are confused what exactly the difference between Intel Core 2 Duo Processors and Between Intel Pentium D or Intel Dual Core processors….
I would try to explain from a END user point a view rather not going in to details architecture over view…
The Simple facts are,
All Core 2 Duo Processors are Dual Core Processors..
All Pentium D Processors are Dual Core Processors..
All Intel Dual Core Processors are Dual Core Processors…
Pentium D is nothing but 2 Prescott Processors side by side… runs very hot, not a good OverClocker…
Intel Core 2 Duo processors are next gen processors from Intel on 65 nm platform… developed from Ground up with new Architecture called Core… so they are whole new Processors just Jump like Pentium 2 to Pentium 3 or Pentium 4… Expect one Core 2 Duo Lowest End Processors like E4400/E4300 taking up and beating Intel Pentium D 3.8 GHz ones with ease … runs damn cool and super over clocker…
Intel Dual Core Processors are just launched striped down version of Core 2 Duos.. there are 2 in Market for Desktop range, E2140 runs at 1.6 GHz with 1 MB L2 and 800 MHz FSB and E2160 with 1.8 GHz with same specs of E2140…. these are not Pentium D rather they are same batch like Core 2 Duo based on the new Core Technology…. they perform same like Core 2 Duos but they were launched with a very low price to counter the market of super low cost but high performer AMD X2 range line up to AMD X2 4000
Intel Core 2 Duo Processors
How to Over Clock / Basic Over Clocking Guide for Core 2 Duo
What will you need ??
1. Hardware setup
2. Softwares for the process
Hardware Setup
This guide will cover mainlly Intel Processors… Basically Intel Core based ones, such as,
Processors
E2140
E2160
E4300
E4400
E4500
E6300
E6320
E6400
E6420
E6550
E6600
E6700
E6750
E6850
Q6600
Q6700
X7900
X7800
X6800
QX6700
QX6800
QX6850
Motherboards
For any Overclocking one thing is must, ur Hardware supporting Overclocking, mean u have a C2D but one Intel 946 / 965 based board, will mean no OC… as those boards doesnt allow OC…
Good Well Ventilated Cabbinet is needed as will generate a lot of heat for sure..so, large cabbi with few FANs so, for OCing high u will need to have cabinet modifications….
Better RAM, those Value rams of 667 or 800 is good for Ligh or mid range OC but will need better RAMs for sure…
Last of all, the most important, The motherboard…. one ASUS P5B-MX motherboard with 946 chipset will not going to oc the procy better, where as P5B DLx with P965 or P5N-E SLi with Nvidia 650 chipset or XFX 650i or higher ones like P35 Chipset based ones like ASUS P5K series and nForce 680i ones like P5N32-E SLi or XFX 680i, will overclock far more efficiantly than those 946 based or VIA based ones….
Before we start, lets learn What exactly is Over Clocking ??
What Softwares One would need ???
Really dont have much idea about Linux softwares, so i would expect all running Windows will suggest few which u will need in Windows…
Lots of Software to monitor the Heat lavel !! As every one says Its easy to Overclock but easier than that to Burn the Procy
Install and Run it in every startup and then minimize it, will show one info at corner of the screen… Like my bellow Screeny,
Core Temp Run it while Stability test under load for Temps monitoring
Pi Testing to test the stability of the OC…
orthos This is for a long time load test of the OC system !!!
ASUS PC Prob… Find in in ur ASUS Mobo CD
in one dumb sentence, what we do is, we increase the FSB / BUS speed by little mean, which in place (FSB / 4 = BUS) increases the CPU Speed BUS x multiple = CPU Speed… and when u OC high u need to increase the processor vcore (my case Default 1.24) to some stable vcore by one step at a time !!! also at some point u may see ur RAM fails to keep up so, u need to increase their voltage too, chip value rams will not allow more than 2.1v at any point…In my case, default E6600 FSB is 1066 MHz where as BUS speed is (1066/4) 266.5 MHz, so with multile 9 my E6600 runs at 266.5 x 9 = 2398.5 MHz So by trial and error Method I found one Stable at this, as my mobo allow FSB increase so, FSB 1575 / Vcore 1.5v / RAM voltage 2.178v….
So, the main idea is increasing the FSB / BUS without givng more vcore till the point where u need to put some vcore… as more vcore will mean more Heat !!!
Lets Start
So to start with in ASUS Boards Disable AI Tuning and CIA2 for Giga Byte ones…
BIOS Settings
Seting the PCI Expres (PCIe) @ 100MHz / PCI to 33 MHz
Disable the Q-Fan control to allow the Processor fan to runn at full speed all the time
Disable any thing which says CPUID MAX to 2
Disable C1E if running windows XP (well thats what all ASUS mobo manual says)
RAM Settings
Well make sure processor and RAM frequency is unlinked so, i would suggest keep the RAM frequency to default value…Till the point u cant boot or dont get stable OS, u dont need to play with the RAM voltage of Timings, but b ready on higher Overclock u will need to push the RAM voltage up [Razz] i got suggestion that Voltage is fine Till 2.1v !!! nothing up for our value rams…
Processor Settings
Some motherboards will allow increase of BUS speed (BUS x multiple) some will alow increase of FSB (FSB/4=BUS Speed)…
in any case, increase step by step, dont push a lot at a time rather step by step… till u find one stable max point…
Stability Testing
Well sure, u should be able to boot in to OS… and personal Suggestion make sure its a clean installation without any Startup object or AVS, as that delayes the time of start nessecary Temp monitoring sofwtares….
If u are unable to boot, means some vcore or RAM voltage !!!
Run CPU-Z to view ur speeds…
for me 1st thing is running PC Wizerd and minimize it to Start bar as that would give a lot of info at once… !!!
Running ASUS Probe
Running Core Temp
they will give info of idle temp…. Make sure, u stay in side the temp limit (explained later on)
Now Copy the SUPER PI Process EXE on 2 places, run those together (Dont start calculation, just run those EXE)… now from Tank Manager, Go to Process, right click on each of the Superpi.exe and put one on each core…
Now Start calculaiton for 2m pi for both at once… !!!! keep eye on ur Temp limits (Explained Later)… If system passes the test fine, proceed to later on, if ur system restarts, means u will need to push some Vcore and come bacnk again to here, even then its restarts, then some RAM voltage may be (Dont cross that 2.1v) !!!
Now when u pass the test next level of Load test
Load Test
Run one Instance of orthos and Start testing ur Procy !!! run it for atleast 1 hour keep an eye on the Temps (Core Temp / PC Wizerd) all the time… if u are crossing the denger lavel Stop the test and rebott back to lower the vcore and BUS/FSB too !!!
if u pass the test means u have a stable overclock system !!!
Temparature settings
At Any point load temp should not cross 60c, see on idle condition temp may low at 42 ot 45 but onload will push the temp close to 60c…
your Dengar Level is 60c, allways stay bellow it….
Please note
No 2 Processo are the same, I mean I have one E6600 which need vcore of 1.5v to run at 3.6 GHz where as its possible that Mr. A’s E6600 can reach 3.8 GHz with just 1.48 or Mr. B’s E6600 cant go byond 3.4 ghx at 1.5v….
So no specific info on exact settings, u have to try and try to find best Overclock for ur self…
Remember Never let the Temps touch 60c, keep the RAMs at their Default Frequency, lavue ram cant take byond 2.1v voltage…
In the end I would say there are tons of better guides out there in OIverclokcing, Google will give better results, so those who already tried it, please post so tricks a tips for higher overlocks…
And last of all, Dont forget to post ur Results, with some Temp and load testing apps running at Backgroud… and with ur OC setings info and steps
For me, on stock it was 2.89 GHz, where as with ThermalRight ultra 120 extreme, FSB 1575 / vcore 1.5 / ram voltage 2.178 (667 MHz)
What will you need ??
1. Hardware setup
2. Softwares for the process
Hardware Setup
This guide will cover mainlly Intel Processors… Basically Intel Core based ones, such as,
Processors
E2140
E2160
E4300
E4400
E4500
E6300
E6320
E6400
E6420
E6550
E6600
E6700
E6750
E6850
Q6600
Q6700
X7900
X7800
X6800
QX6700
QX6800
QX6850
Motherboards
For any Overclocking one thing is must, ur Hardware supporting Overclocking, mean u have a C2D but one Intel 946 / 965 based board, will mean no OC… as those boards doesnt allow OC…
Good Well Ventilated Cabbinet is needed as will generate a lot of heat for sure..so, large cabbi with few FANs so, for OCing high u will need to have cabinet modifications….
Better RAM, those Value rams of 667 or 800 is good for Ligh or mid range OC but will need better RAMs for sure…
Last of all, the most important, The motherboard…. one ASUS P5B-MX motherboard with 946 chipset will not going to oc the procy better, where as P5B DLx with P965 or P5N-E SLi with Nvidia 650 chipset or XFX 650i or higher ones like P35 Chipset based ones like ASUS P5K series and nForce 680i ones like P5N32-E SLi or XFX 680i, will overclock far more efficiantly than those 946 based or VIA based ones….
Before we start, lets learn What exactly is Over Clocking ??
What Softwares One would need ???
Really dont have much idea about Linux softwares, so i would expect all running Windows will suggest few which u will need in Windows…
Lots of Software to monitor the Heat lavel !! As every one says Its easy to Overclock but easier than that to Burn the Procy
Install and Run it in every startup and then minimize it, will show one info at corner of the screen… Like my bellow Screeny,
Core Temp Run it while Stability test under load for Temps monitoring
Pi Testing to test the stability of the OC…
orthos This is for a long time load test of the OC system !!!
ASUS PC Prob… Find in in ur ASUS Mobo CD
in one dumb sentence, what we do is, we increase the FSB / BUS speed by little mean, which in place (FSB / 4 = BUS) increases the CPU Speed BUS x multiple = CPU Speed… and when u OC high u need to increase the processor vcore (my case Default 1.24) to some stable vcore by one step at a time !!! also at some point u may see ur RAM fails to keep up so, u need to increase their voltage too, chip value rams will not allow more than 2.1v at any point…In my case, default E6600 FSB is 1066 MHz where as BUS speed is (1066/4) 266.5 MHz, so with multile 9 my E6600 runs at 266.5 x 9 = 2398.5 MHz So by trial and error Method I found one Stable at this, as my mobo allow FSB increase so, FSB 1575 / Vcore 1.5v / RAM voltage 2.178v….
So, the main idea is increasing the FSB / BUS without givng more vcore till the point where u need to put some vcore… as more vcore will mean more Heat !!!
Lets Start
So to start with in ASUS Boards Disable AI Tuning and CIA2 for Giga Byte ones…
BIOS Settings
Seting the PCI Expres (PCIe) @ 100MHz / PCI to 33 MHz
Disable the Q-Fan control to allow the Processor fan to runn at full speed all the time
Disable any thing which says CPUID MAX to 2
Disable C1E if running windows XP (well thats what all ASUS mobo manual says)
RAM Settings
Well make sure processor and RAM frequency is unlinked so, i would suggest keep the RAM frequency to default value…Till the point u cant boot or dont get stable OS, u dont need to play with the RAM voltage of Timings, but b ready on higher Overclock u will need to push the RAM voltage up [Razz] i got suggestion that Voltage is fine Till 2.1v !!! nothing up for our value rams…
Processor Settings
Some motherboards will allow increase of BUS speed (BUS x multiple) some will alow increase of FSB (FSB/4=BUS Speed)…
in any case, increase step by step, dont push a lot at a time rather step by step… till u find one stable max point…
Stability Testing
Well sure, u should be able to boot in to OS… and personal Suggestion make sure its a clean installation without any Startup object or AVS, as that delayes the time of start nessecary Temp monitoring sofwtares….
If u are unable to boot, means some vcore or RAM voltage !!!
Run CPU-Z to view ur speeds…
for me 1st thing is running PC Wizerd and minimize it to Start bar as that would give a lot of info at once… !!!
Running ASUS Probe
Running Core Temp
they will give info of idle temp…. Make sure, u stay in side the temp limit (explained later on)
Now Copy the SUPER PI Process EXE on 2 places, run those together (Dont start calculation, just run those EXE)… now from Tank Manager, Go to Process, right click on each of the Superpi.exe and put one on each core…
Now Start calculaiton for 2m pi for both at once… !!!! keep eye on ur Temp limits (Explained Later)… If system passes the test fine, proceed to later on, if ur system restarts, means u will need to push some Vcore and come bacnk again to here, even then its restarts, then some RAM voltage may be (Dont cross that 2.1v) !!!
Now when u pass the test next level of Load test
Load Test
Run one Instance of orthos and Start testing ur Procy !!! run it for atleast 1 hour keep an eye on the Temps (Core Temp / PC Wizerd) all the time… if u are crossing the denger lavel Stop the test and rebott back to lower the vcore and BUS/FSB too !!!
if u pass the test means u have a stable overclock system !!!
Temparature settings
At Any point load temp should not cross 60c, see on idle condition temp may low at 42 ot 45 but onload will push the temp close to 60c…
your Dengar Level is 60c, allways stay bellow it….
Please note
No 2 Processo are the same, I mean I have one E6600 which need vcore of 1.5v to run at 3.6 GHz where as its possible that Mr. A’s E6600 can reach 3.8 GHz with just 1.48 or Mr. B’s E6600 cant go byond 3.4 ghx at 1.5v….
So no specific info on exact settings, u have to try and try to find best Overclock for ur self…
Remember Never let the Temps touch 60c, keep the RAMs at their Default Frequency, lavue ram cant take byond 2.1v voltage…
In the end I would say there are tons of better guides out there in OIverclokcing, Google will give better results, so those who already tried it, please post so tricks a tips for higher overlocks…
And last of all, Dont forget to post ur Results, with some Temp and load testing apps running at Backgroud… and with ur OC setings info and steps
For me, on stock it was 2.89 GHz, where as with ThermalRight ultra 120 extreme, FSB 1575 / vcore 1.5 / ram voltage 2.178 (667 MHz)
Sunday, June 7, 2009
Intel® Core™ i7 Processor:
Intel® Core™ i7 Processor The best desktop processors on the planet:
Brilliantly fast:
With faster, intelligent, multi-core technology that applies processing power where it's needed most, new Intel® Core™ i7 processors deliver an incredible breakthrough in PC performance. They are the best desktop processors on the planet.¹
You'll multitask applications faster and unleash incredible digital media creation. And you'll experience maximum performance for everything you do, thanks to the combination of Intel® Turbo Boost technology² and Intel® Hyper-Threading technology (Intel® HT technology)³, which maximizes performance to match your workload.
Brilliantly fast:
With faster, intelligent, multi-core technology that applies processing power where it's needed most, new Intel® Core™ i7 processors deliver an incredible breakthrough in PC performance. They are the best desktop processors on the planet.¹
You'll multitask applications faster and unleash incredible digital media creation. And you'll experience maximum performance for everything you do, thanks to the combination of Intel® Turbo Boost technology² and Intel® Hyper-Threading technology (Intel® HT technology)³, which maximizes performance to match your workload.
New $3 Billion Facility to Produce Processors with Intel 45nm Hafnium-based High-k Metal Gate Transistors CHANDLER, Ariz., Oct. 25, 2007 – Production
New $3 Billion Facility to Produce Processors with Intel 45nm Hafnium-based High-k Metal Gate Transistors
CHANDLER, Ariz., Oct. 25, 2007 – Production of a new generation of microprocessors for PCs, laptops, servers and other computing devices officially began today inside of Intel Corporation's first high-volume 45 nanometer (nm) manufacturing factory in Chandler, Ariz.
Called "Fab 32," the $3 billion factory will use Intel's innovative 45nm process technology based on Intel's breakthrough in "reinventing" certain areas of the transistors inside its processors to reduce energy leakage. The 45nm transistors use a Hafnium-based high-k material for the gate dielectric and metal materials for the gate, and are so small that more than 2 million can fit on the period at the end of this sentence. Millions of these tiny transistors will make up Intel's faster, more energy efficient lead- and halogen-free processors for PCs, laptops and servers, as well as ultra low-power processors for mobile Internet and consumer electronic devices, and low-cost PCs. The first of the company's 45nm processors is scheduled to be introduced on Nov. 12.
"The opening of Fab 32 in Arizona today is a testament to Intel's continued investment in our most strategic asset -- the most advanced, environmentally friendly manufacturing network in the world," said Paul Otellini, Intel president and CEO. "The magic of 45nm and our new transistor design allow us to deliver high-performance, energy-efficient processors to our customers across the entire spectrum of market segments, from the most powerful servers to a variety of mobile devices and everything in between."
Fab 32 is Intel's sixth 300mm wafer factory and its second factory to produce 45nm chips. Intel first produced 45nm processors in its Oregon development facility, called D1D, in January and is now moving into high-volume production with the opening of Fab 32. Two additional 45nm, 300mm manufacturing factories are scheduled to open next year in Kiryat Gat, Israel (Fab 28) and Rio Rancho, N.M. (Fab 11x). Using 300mm wafers lowers the production cost per chip while diminishing overall use of resources.
With 184,000 square feet of clean room space, the completed Fab 32 structure measures 1 million square feet, so large that more than 17 U.S. football fields could fit inside the building. More than 1,000 employees will operate the factory in such positions as process, automation and yield engineers and senior manufacturing technicians.
CHANDLER, Ariz., Oct. 25, 2007 – Production of a new generation of microprocessors for PCs, laptops, servers and other computing devices officially began today inside of Intel Corporation's first high-volume 45 nanometer (nm) manufacturing factory in Chandler, Ariz.
Called "Fab 32," the $3 billion factory will use Intel's innovative 45nm process technology based on Intel's breakthrough in "reinventing" certain areas of the transistors inside its processors to reduce energy leakage. The 45nm transistors use a Hafnium-based high-k material for the gate dielectric and metal materials for the gate, and are so small that more than 2 million can fit on the period at the end of this sentence. Millions of these tiny transistors will make up Intel's faster, more energy efficient lead- and halogen-free processors for PCs, laptops and servers, as well as ultra low-power processors for mobile Internet and consumer electronic devices, and low-cost PCs. The first of the company's 45nm processors is scheduled to be introduced on Nov. 12.
"The opening of Fab 32 in Arizona today is a testament to Intel's continued investment in our most strategic asset -- the most advanced, environmentally friendly manufacturing network in the world," said Paul Otellini, Intel president and CEO. "The magic of 45nm and our new transistor design allow us to deliver high-performance, energy-efficient processors to our customers across the entire spectrum of market segments, from the most powerful servers to a variety of mobile devices and everything in between."
Fab 32 is Intel's sixth 300mm wafer factory and its second factory to produce 45nm chips. Intel first produced 45nm processors in its Oregon development facility, called D1D, in January and is now moving into high-volume production with the opening of Fab 32. Two additional 45nm, 300mm manufacturing factories are scheduled to open next year in Kiryat Gat, Israel (Fab 28) and Rio Rancho, N.M. (Fab 11x). Using 300mm wafers lowers the production cost per chip while diminishing overall use of resources.
With 184,000 square feet of clean room space, the completed Fab 32 structure measures 1 million square feet, so large that more than 17 U.S. football fields could fit inside the building. More than 1,000 employees will operate the factory in such positions as process, automation and yield engineers and senior manufacturing technicians.
Intel® Turbo Boost Technology:
Intel® Turbo Boost Technology is one of the many exciting new features that Intel has built into latest-generation . It automatically allows processor cores to run faster than the base operating frequency if it's operating below power, current, and temperature specification limits.
Dynamically increasing performance
As an independent and complimentary feature, (Intel® HT Technology) along with Intel Turbo Boost Technology increases performance of both multi-threaded and single threaded workloads. Intel Turbo Boost Technology is activated when the Operating System (OS) requests the highest processor performance state (P0).
The maximum frequency of Intel® Turbo Boost Technology is dependent on the number of active cores. The amount of time the processor spends in the Intel Turbo Boost Technology state depends on the workload and operating environment, providing the performance you need, when and where you need it.
Any of the following can set the upper limit of Intel Turbo Boost Technology on a given workload:
• Number of active cores
• Estimated current consumption
• Estimated power consumption
• Processor temperature
When the processor is operating below these limits and the user's workload demands additional performance, the processor frequency will dynamically increase by 133 MHz on short and regular intervals until the upper limit is met or the maximum possible upside for the number of active cores is reached. Conversely, when any of the limits are reached or exceeded, the processor frequency will automatically decrease by 133 MHz until the processor is again operating within its limits.
Dynamically increasing performance
As an independent and complimentary feature, (Intel® HT Technology) along with Intel Turbo Boost Technology increases performance of both multi-threaded and single threaded workloads. Intel Turbo Boost Technology is activated when the Operating System (OS) requests the highest processor performance state (P0).
The maximum frequency of Intel® Turbo Boost Technology is dependent on the number of active cores. The amount of time the processor spends in the Intel Turbo Boost Technology state depends on the workload and operating environment, providing the performance you need, when and where you need it.
Any of the following can set the upper limit of Intel Turbo Boost Technology on a given workload:
• Number of active cores
• Estimated current consumption
• Estimated power consumption
• Processor temperature
When the processor is operating below these limits and the user's workload demands additional performance, the processor frequency will dynamically increase by 133 MHz on short and regular intervals until the upper limit is met or the maximum possible upside for the number of active cores is reached. Conversely, when any of the limits are reached or exceeded, the processor frequency will automatically decrease by 133 MHz until the processor is again operating within its limits.
Embedded Systems:
In February 2002, AMD acquired Alchemy Semiconductor and continued its line of processor in MIPS architecture processors, targets the hand-held and Portable media player markets. On 13 June 2006, AMD officially announced that the Alchemy processor line was transferred to Raza Microelectronics Inc.
In August 2003, AMD also purchased the Geode business which was originally the Cyrix MediaGX from National Semiconductor to augment its existing line of embedded x86 processor products. During the second quarter of 2004, it launched new low-power Geode NX processors based on the K7 Thoroughbred architecture with speeds of fanless processors 667 MHz and 1 GHz, and 1.4 GHz processor with fan, of TDP 25 W. This technology is used in a variety of embedded systems (Casino slot machines and customer kiosks for instance), several UMPC designs in Asia markets, as well as the OLPC XO-1 computer, an inexpensive laptop computer intended to be distributed to children in developing countries around the world.
For the past couple of years AMD has been introducing 64-bit processors into its embedded product line starting with the AMD Opteron processor. Leveraging the high throughput enabled through HyperTransport and the Direct Connect Architecture these server class processors have been targeted at high end telecom and storage applications. In 2006 AMD added the AMD Athlon, AMD Turion and Mobile AMD Sempron processors to its embedded product line. Leveraging the same 64-bit instruction set and Direct Connect Architecture as the AMD Opteron but at lower power levels and in smaller footprint packages, these processors were well suited to a variety of traditional embedded applications. Throughout 2007 supporting longer than standard availability.
In April 2007, AMD announced the release of the M690T integrated graphics chipset for embedded designs. This enabled AMD to offer complete processor and chipset solutions targeted at embedded applications requiring high performance 3D and video such as emerging digital signage, kiosk and Point of Sale applications. The M690T was followed by the M690E specifically for embedded applications which removed the TV output, which required Macrovision licensing for OEMs, and enabled native support for dual TMDS outputs, enabling dual independent DVI interfaces.
and into 2008 AMD has continued to add both single-core Mobile AMD Sempron and AMD Athlon processors and dual-core AMD Athlon X2 and AMD Turion processors to its embedded product line and now offers embedded 64-bit solutions starting with 8W TDP Mobile AMD Sempron and AMD Athlon processors for fan-less designs up to multi-processor systems leveraging multi-core AMD Opteron processors all
In August 2003, AMD also purchased the Geode business which was originally the Cyrix MediaGX from National Semiconductor to augment its existing line of embedded x86 processor products. During the second quarter of 2004, it launched new low-power Geode NX processors based on the K7 Thoroughbred architecture with speeds of fanless processors 667 MHz and 1 GHz, and 1.4 GHz processor with fan, of TDP 25 W. This technology is used in a variety of embedded systems (Casino slot machines and customer kiosks for instance), several UMPC designs in Asia markets, as well as the OLPC XO-1 computer, an inexpensive laptop computer intended to be distributed to children in developing countries around the world.
For the past couple of years AMD has been introducing 64-bit processors into its embedded product line starting with the AMD Opteron processor. Leveraging the high throughput enabled through HyperTransport and the Direct Connect Architecture these server class processors have been targeted at high end telecom and storage applications. In 2006 AMD added the AMD Athlon, AMD Turion and Mobile AMD Sempron processors to its embedded product line. Leveraging the same 64-bit instruction set and Direct Connect Architecture as the AMD Opteron but at lower power levels and in smaller footprint packages, these processors were well suited to a variety of traditional embedded applications. Throughout 2007 supporting longer than standard availability.
In April 2007, AMD announced the release of the M690T integrated graphics chipset for embedded designs. This enabled AMD to offer complete processor and chipset solutions targeted at embedded applications requiring high performance 3D and video such as emerging digital signage, kiosk and Point of Sale applications. The M690T was followed by the M690E specifically for embedded applications which removed the TV output, which required Macrovision licensing for OEMs, and enabled native support for dual TMDS outputs, enabling dual independent DVI interfaces.
and into 2008 AMD has continued to add both single-core Mobile AMD Sempron and AMD Athlon processors and dual-core AMD Athlon X2 and AMD Turion processors to its embedded product line and now offers embedded 64-bit solutions starting with 8W TDP Mobile AMD Sempron and AMD Athlon processors for fan-less designs up to multi-processor systems leveraging multi-core AMD Opteron processors all
Intel® Core™2 Extreme dual-core mobile processor (X9100):
Designed for gamers and power-users, the Intel Core 2 Extreme dual-core mobile processor the is world's highest performing dual-core processor². For those who want an intense, high-performance mobile computing experience, the Intel Core 2 Extreme dual-core mobile processor delivers revolutionary mobile dual-core performance with 3.06GHz frequency, 6MB of shared L2 Advanced Smart Cache, and Intel® Smart Memory Access with a blazing 1066MHz Front Side Bus (FSB).
Experience excellent mobile gaming and multimedia with the raw power, responsiveness and realism of revolutionary mobile dual-core performance. The Intel Core 2 Extreme dual-core mobile processor brings a whole new intensity to mobile gaming.
And just like its quad-core big brother, the Intel Core 2 Extreme dual-core mobile processor also offers the ultimate control to with bus ratio locks (overspeed protection) removed, so you can fine tune your notebook experience for maximum gaming performance.
Experience excellent mobile gaming and multimedia with the raw power, responsiveness and realism of revolutionary mobile dual-core performance. The Intel Core 2 Extreme dual-core mobile processor brings a whole new intensity to mobile gaming.
And just like its quad-core big brother, the Intel Core 2 Extreme dual-core mobile processor also offers the ultimate control to with bus ratio locks (overspeed protection) removed, so you can fine tune your notebook experience for maximum gaming performance.
Intel® Core™2 Extreme quad-core mobile processor (QX9300):
Achieving clock speeds of up to 2.53GHz, along with an astounding 12 MB of shared L2 cache and a 1066 MHz Front Side Bus (FSB), the Intel Core 2 Extreme quad-core mobile processor is your ultimate engine for hi-def multimedia while powering the latest generation of hardcore games.
The Intel Core 2 Extreme quad-core mobile processor has four cores processing multiple threads and multiple tasks at blistering speeds for an incredible "like you're there" experience in advanced artificial intelligence (AI), particle systems, dynamic physics, and texture generation. As your ultimate engine for creating rich, HD videos with up to 50 percent faster performance when encoding³ and editingฮฉ video, these processors enable you to perform like a multiple armed monster.
And because you're looking for ultimate control in game, the Intel Core 2 Extreme quad-core mobile processor bus ratio locks (overspeed protection) have been removed, so you can fine tune your notebook experience for maximum gaming performance.
The Intel Core 2 Extreme quad-core mobile processor has four cores processing multiple threads and multiple tasks at blistering speeds for an incredible "like you're there" experience in advanced artificial intelligence (AI), particle systems, dynamic physics, and texture generation. As your ultimate engine for creating rich, HD videos with up to 50 percent faster performance when encoding³ and editingฮฉ video, these processors enable you to perform like a multiple armed monster.
And because you're looking for ultimate control in game, the Intel Core 2 Extreme quad-core mobile processor bus ratio locks (overspeed protection) have been removed, so you can fine tune your notebook experience for maximum gaming performance.
Intel® Core™2 Extreme Mobile Processor:
Designed from the ground up for extreme competitive gaming and HD multimedia on the fly, the Intel® Core™2 Extreme processors are the world's highest performing quad-core and dual-core mobile processors. Delivering all the performance of a desktop, enabled in a revolutionary, sleek, and killer notebook.
As your ultimate engine for hi-def digital content creation, HD multimedia, and a rockin' hardcore gaming experience, these notebooks provide the raw power, responsiveness, and realism you need for the most compute-intensive and multi-threaded apps-wherever you want to be.
As your ultimate engine for hi-def digital content creation, HD multimedia, and a rockin' hardcore gaming experience, these notebooks provide the raw power, responsiveness, and realism you need for the most compute-intensive and multi-threaded apps-wherever you want to be.
Intel® Atom™ Processor smallest chip:
Intel’s smallest and lowest power processor, the Intel® Atom™ processor will enable the industry to design new Mobile Internet Devices (MIDs) and affordable Internet-focused notebooks (netbooks), and desktops (nettops). This new processor also serves as the foundation for the all new Intel® Centrino® Atom™ processor technology, a collection of chips that enables amazing Internet experiences in pocketable devices.Newly designed from the ground up, 45nm Intel Atom processors pack an astounding 47 million transistors on a single chip measuring less than 25mm², making them Intel’s smallest and lowest power processors.¹ All this, and while still delivering the power* Get a new range of power-efficient devices with excellent performance enabled by all new hafnium-infused 45nm high-k silicon technology* Increase energy efficiency in smaller more compact designs with a thermal design power specification ranging from subwatt to 2.5 watts for mobile devices* Extend battery life in select devices with an incredibly low idle power as low as 30 mW allowing the device to stay powered on while also conserving energyPowering the next generation of Internet-centric devices, Intel Atom processors will power the latest in pocketable, portable devices. Based on an entirely new microarchitecture, the Intel Atom processor was developed specifically for performance and low power while maintaining full Intel® Core™ microarchitecture instruction set compatibility. Some Intel Atom processors will also feature multiple threads for better performance and increased system responsiveness.Devices powered by Intel Atom processors allow you to stay in touch on-the-go, connect to business and enjoy entertainment, remain connected affordably with a new series of netbooks and nettops, and so much more.
Intel® QuickPath Technology:
Unleashing performance with interconnect system architecture
Providing point-to-point high-speed links to distributed shared memory, Intel® QuickPath technology unleashes the parallel processing performance of next-generation Intel® 45nm microarchitectures (codenamed Nehalem and Tukwila). These microarchitectures, built from the ground up, will be the first to use the Intel QuickPath interconnect system and can see significant improvements in overall performance.
With new Intel QuickPath technology built into future Nehalem and Tukwila microarchitectures, each processor core will feature an integrated memory controller and high-speed interconnect, linking processors and other components to deliver:
• Dynamically scalable interconnect bandwidth designed to set loose the full performance of Nehalem, Tukwila, and future generations of Intel® multi-core processors.
• Outstanding memory performance and flexibility to support leading memory technologies.
• Tightly integrated interconnect reliability, availability, and serviceability (RAS) with design-scalable configurations for optimal balance of price, performance, and energy efficiency.
Providing point-to-point high-speed links to distributed shared memory, Intel® QuickPath technology unleashes the parallel processing performance of next-generation Intel® 45nm microarchitectures (codenamed Nehalem and Tukwila). These microarchitectures, built from the ground up, will be the first to use the Intel QuickPath interconnect system and can see significant improvements in overall performance.
With new Intel QuickPath technology built into future Nehalem and Tukwila microarchitectures, each processor core will feature an integrated memory controller and high-speed interconnect, linking processors and other components to deliver:
• Dynamically scalable interconnect bandwidth designed to set loose the full performance of Nehalem, Tukwila, and future generations of Intel® multi-core processors.
• Outstanding memory performance and flexibility to support leading memory technologies.
• Tightly integrated interconnect reliability, availability, and serviceability (RAS) with design-scalable configurations for optimal balance of price, performance, and energy efficiency.
Intel® Core™2 Duo Processors:
Based on Intel® Core™ microarchitecture, the Intel® Core™2 Duo processor family is designed to provide powerful energy-efficient performance so you can do more at once without slowing down.
Intel® Core™ 2 Duo desktop processors
With Intel Core 2 Duo desktop processor, you'll experience revolutionary performance, unbelievable system responsiveness, and energy-efficiency second to none.
Big, big performance. More energy efficient.¹ Now available in smaller packages. The Intel Core 2 Duo processor-based desktop PC was designed from the ground up for energy efficiency, letting you enjoy higher performing, ultra-quiet, sleek, and low power desktop PC designs.
Multitask with reckless abandon. Do more at the same time, like playing your favorite music, running virus scan in the background, and all while you edit video or pictures. The powerful Intel Core 2 Duo desktop processor provides you with the speed you need to perform any and all tasks imaginable.
Love your PC again. Don’t settle for anything less than the very best. Find your perfect desktop powered by the Intel Core 2 Duo processor and get the best processing technology money can buy. Only from Intel.
• Up to 6MB L2 cache.
• Up to 1333 MHz front side bus.,
Intel® Core™ 2 Duo desktop processors
With Intel Core 2 Duo desktop processor, you'll experience revolutionary performance, unbelievable system responsiveness, and energy-efficiency second to none.
Big, big performance. More energy efficient.¹ Now available in smaller packages. The Intel Core 2 Duo processor-based desktop PC was designed from the ground up for energy efficiency, letting you enjoy higher performing, ultra-quiet, sleek, and low power desktop PC designs.
Multitask with reckless abandon. Do more at the same time, like playing your favorite music, running virus scan in the background, and all while you edit video or pictures. The powerful Intel Core 2 Duo desktop processor provides you with the speed you need to perform any and all tasks imaginable.
Love your PC again. Don’t settle for anything less than the very best. Find your perfect desktop powered by the Intel Core 2 Duo processor and get the best processing technology money can buy. Only from Intel.
• Up to 6MB L2 cache.
• Up to 1333 MHz front side bus.,
Intel® Core™2 Quad Processors:
Introducing Intel® Core™2 Quad processor for notebook and desktop PCs, designed to handle massive compute and visualization workloads enabled by powerful multi-core technology. Optimized for the longest possible battery life without compromise to performance, Intel Core 2 Quad processors for notebooks allow you to stay unwired longer while running the most compute-intensive applications.
Providing all the bandwidth you need for next-generation highly-threaded applications, the latest four-core Intel Core 2 Quad processors are built on 45nm Intel® Core™ microarchitecture enabling faster, cooler, and quieter mobile and desktop PC and workstation experiences.
Plus, with optional Intel® vPro™ technology, you have the ability to remotely isolate, diagnose, and repair infected desktop and mobile workstations wirelessly and outside of the firewall, even if the PC is off, or the OS is unresponsive.
Features and Benefits:
With four processing cores, up to 12MB of shared L2 cache,and up to 1066 MHz Front Side Bus for notebooks, and up to 12MB of L2 cache² and up to 1333 MHz Front Side Bus for desktops, the Intel Core 2 Quad processor delivers amazing performance and power efficiency enabled by the all new hafnium-based circuitry of 45nm Intel Core microarchitecture.
Whether you're encoding, rendering, editing, or streaming HD multimedia in the office or on the go, power your most demanding applications with notebooks and desktops based on the Intel Core 2 Quad processor.
Providing all the bandwidth you need for next-generation highly-threaded applications, the latest four-core Intel Core 2 Quad processors are built on 45nm Intel® Core™ microarchitecture enabling faster, cooler, and quieter mobile and desktop PC and workstation experiences.
Plus, with optional Intel® vPro™ technology, you have the ability to remotely isolate, diagnose, and repair infected desktop and mobile workstations wirelessly and outside of the firewall, even if the PC is off, or the OS is unresponsive.
Features and Benefits:
With four processing cores, up to 12MB of shared L2 cache,and up to 1066 MHz Front Side Bus for notebooks, and up to 12MB of L2 cache² and up to 1333 MHz Front Side Bus for desktops, the Intel Core 2 Quad processor delivers amazing performance and power efficiency enabled by the all new hafnium-based circuitry of 45nm Intel Core microarchitecture.
Whether you're encoding, rendering, editing, or streaming HD multimedia in the office or on the go, power your most demanding applications with notebooks and desktops based on the Intel Core 2 Quad processor.
AMD's Turion 64X2:
Turion 64 X2 is AMD's 64-bit dual-core mobile CPU, intended to compete with Intel's Core and Core 2 CPUs. The Turion 64 X2 was launched on May 17, 2006, after several delays. These processors use Socket S1, and feature DDR2 memory. They also include AMD Virtualization Technology and more power-saving features.
AMD first produced the Turion 64 X2 on IBM's 90 nm Silicon on insulator (SOI) process (cores with the Taylor codename). As of May 2007, they have switched to a 65 nm Silicon-Germanium stressed process, which was recently achieved through the combined effort of IBM and AMD, with 40% improvement over comparable 65 nm processes. The earlier 90 nm devices were codenamed Taylor and Trinidad, while the newer 65 nm cores have codename Tyler.
AMD first produced the Turion 64 X2 on IBM's 90 nm Silicon on insulator (SOI) process (cores with the Taylor codename). As of May 2007, they have switched to a 65 nm Silicon-Germanium stressed process, which was recently achieved through the combined effort of IBM and AMD, with 40% improvement over comparable 65 nm processes. The earlier 90 nm devices were codenamed Taylor and Trinidad, while the newer 65 nm cores have codename Tyler.
AMD's Triple-core processor(Phenom):
AMD’s triple-core processors have been on the horizon for months now and, after all the speculation and derision, they are finally here. The launch included three Phenom X3 processors: the 8750, 8650, and 8450, all of which will come in at under $200. AMD is, as expected, positioning these processors between their dual-core and quad-core offerings and is targeting cost-conscious consumers, people who will appreciate the performance boost but would rather save a few dollars than go with a quad-core.The three 65nm models will arrive at 2.1, 2.3, and 2.4GHz frequencies, respectively priced at $145, $165, and a hefty $195 for the 8750. These models have a TDP of 95W and 1.5MB total L2 cache per processors as well as 2MB shared cache. Also included is HT 3.0, a 1.8GHz memory controller, and Dual Dynamic Power Management. And because this is a 50 series processor we know it is a B3 revision model. They are AM2+ (940 pin) compatible so consumers won’t necessarily need new hardware to run an X3.Having the basic information in front of you, it’s not immediately clear whether AMD is fulfilling a need that no one has, offering an interesting new option to consumers, or just making the best out of their situation (by releasing “broken” quad-cores as X3s). What we do know though is that outside of enthusiasts circles there won’t be the clamoring and complaints about the third core, rather it’ll probably be seen as nothing more (or less) than something between two other options.AMD is also touting a platform approach–not exactly admitting that they can’t compete with Intel on a processor-by-processor basis, but rather than their entire package is better than the competition’s. Specifically, this platform is “Cartwheel”, AMD’s current take on a main-stream computer with integrated graphics. By using the 780G chipset AMD could actually produce a better system (dollar-for-dollar) than Intel, so long as you subscribe to their platform approach, something that may actually make sense considering that most sub-$200 processors are found in pre-built computers.
Intel® Xeon Processor 5000 sequence:
Quad-Core® and Dual-Core® Intel® Xeon® processors for embedded computing platforms
Breakthrough performance, energy efficiency, extended lifecycle support and common socket Intel Xeon processor-based systems make them the ideal choice for compute-intensive embedded, storage and communications applications.
Lower thermal design power (TDP) and higher Tcase temperature Intel Xeon processor options are ideal options for low power consumption and/or compliance with the AdvancedTCA* form factor and NEBS level-3 thermal specifications These processors are validated with two different chipsets, providing a choice of flexible, dual-processor-capable platforms for a wide range of applications. These include storage area networks (SANs), network attached storage (NAS), routers, IP-PBX, converged/unified communications platforms, sophisticated content firewalls, unified threat management (UTM) systems, medical imaging equipment, military signal and image processing, and telecommunications (wireless and wireline) servers.
• Intel® 5000P chipset-based platforms are ideal for full performance and memory-intense applications by providing a maximum FB-DIMM memory capacity of 64 GB, 28 lanes of PCI Express* and accelerated I/O options.
• Intel® 5100 Memory Controller Hub (MCH) chipset-based platforms are ideal for bladed and dense bladed applications requiring less than 200 watts, including AdvancedTCA and NEBS-compliance.
Breakthrough performance, energy efficiency, extended lifecycle support and common socket Intel Xeon processor-based systems make them the ideal choice for compute-intensive embedded, storage and communications applications.
Lower thermal design power (TDP) and higher Tcase temperature Intel Xeon processor options are ideal options for low power consumption and/or compliance with the AdvancedTCA* form factor and NEBS level-3 thermal specifications These processors are validated with two different chipsets, providing a choice of flexible, dual-processor-capable platforms for a wide range of applications. These include storage area networks (SANs), network attached storage (NAS), routers, IP-PBX, converged/unified communications platforms, sophisticated content firewalls, unified threat management (UTM) systems, medical imaging equipment, military signal and image processing, and telecommunications (wireless and wireline) servers.
• Intel® 5000P chipset-based platforms are ideal for full performance and memory-intense applications by providing a maximum FB-DIMM memory capacity of 64 GB, 28 lanes of PCI Express* and accelerated I/O options.
• Intel® 5100 Memory Controller Hub (MCH) chipset-based platforms are ideal for bladed and dense bladed applications requiring less than 200 watts, including AdvancedTCA and NEBS-compliance.
AMD 386
The Am386 CPU was released by AMD in 1991. A 100%-compatible clone of the Intel 80386 design, it sold millions of units and positioned AMD as a legitimate competitor to Intel, rather than just a second source for x86 CPUs (then termed 8086-family).
While the CPU was essentially ready to be released prior to 1991, Intel kept it tied up in court. AMD had previously been a second-source manufacturer of Intel's designs, and AMD's interpretation of the contract was that it covered all of them. Intel, however, claimed that the contract only covered the 80286 and prior processors. After a few years in the courtrooms, AMD finally won the case and the right to sell their Am386. This paved the way for competition also in the market for 8086-compatible 32-bit processors and lowered the cost of buying a PC.
While Intel's 386 design peaked at 33 MHz, AMD released a 40 MHz version of both its 386DX and 386SX, extending the lifespan of the architecture. The AMD 386DX-40 was popular with small manufacturers of PC clones and with budget-minded computer enthusiasts because it offered near-80486 performance at a much lower price than a real 486.
The 386DX-40 could match or even slightly outperform a 486SX-25 in popular benchmarks and many real-world applications, while costing less. Integer performance at 40 MHz thus approached that of low-end 486 CPUs, but rarely exceeded it. This is because the 486 needed fewer clock cycles per instruction, thanks to its tighter pipelining (more overlapping of internal processing) in combination with a crucical on-chip CPU cache. However, because the Am386DX-40 had the same 32-bit width on its data bus as an 80486, it had good memory and I/O performance even compared to many 486s.
Floating point performance could be boosted with the addition of an inexpensive 80387 coprocessor, although performance would still not approach that of the on-chip FPU of the 486DX. This made the Am386DX a suboptimal choice for scientific applications and CAD using floating point intensive calculations. However, both were niche markets in the early 1990s and the chip sold well, first as a mid-range contender, and then as a budget chip. Although motherboards using the older 386 CPUs often had limited memory expansion possibilties and therefore struggled under Windows 95's memory requirements, boards using the Am386 was sold well into the mid-1990s; at the end as budget motherboards for those who were only interested in running MS-DOS or Windows 3.1x applications. The Am386 and its low-power successors were also popular choices for embedded systems, for a much longer period than their life span as PC processors.
While the CPU was essentially ready to be released prior to 1991, Intel kept it tied up in court. AMD had previously been a second-source manufacturer of Intel's designs, and AMD's interpretation of the contract was that it covered all of them. Intel, however, claimed that the contract only covered the 80286 and prior processors. After a few years in the courtrooms, AMD finally won the case and the right to sell their Am386. This paved the way for competition also in the market for 8086-compatible 32-bit processors and lowered the cost of buying a PC.
While Intel's 386 design peaked at 33 MHz, AMD released a 40 MHz version of both its 386DX and 386SX, extending the lifespan of the architecture. The AMD 386DX-40 was popular with small manufacturers of PC clones and with budget-minded computer enthusiasts because it offered near-80486 performance at a much lower price than a real 486.
The 386DX-40 could match or even slightly outperform a 486SX-25 in popular benchmarks and many real-world applications, while costing less. Integer performance at 40 MHz thus approached that of low-end 486 CPUs, but rarely exceeded it. This is because the 486 needed fewer clock cycles per instruction, thanks to its tighter pipelining (more overlapping of internal processing) in combination with a crucical on-chip CPU cache. However, because the Am386DX-40 had the same 32-bit width on its data bus as an 80486, it had good memory and I/O performance even compared to many 486s.
Floating point performance could be boosted with the addition of an inexpensive 80387 coprocessor, although performance would still not approach that of the on-chip FPU of the 486DX. This made the Am386DX a suboptimal choice for scientific applications and CAD using floating point intensive calculations. However, both were niche markets in the early 1990s and the chip sold well, first as a mid-range contender, and then as a budget chip. Although motherboards using the older 386 CPUs often had limited memory expansion possibilties and therefore struggled under Windows 95's memory requirements, boards using the Am386 was sold well into the mid-1990s; at the end as budget motherboards for those who were only interested in running MS-DOS or Windows 3.1x applications. The Am386 and its low-power successors were also popular choices for embedded systems, for a much longer period than their life span as PC processors.
Sunday, May 31, 2009
Intel shows off next-gen atom processor
Intel used the first day of the Spring IDF in Beijing to show off its Moorestown integrated processor, which is expected to replace the current Atom CPU and chipset later this year or early 2010. The company also introduced two new Z-series Atom processors.
It was the first time that a Moorestown chip was shown live to the public. What makes this processor special is the fact that it integrates graphics and all other chipset components on-die, which will make it substantially smaller and apparently less power hungry than today’s Atom generation.
Moorestown is promised to run at ten times less idle power than the current Atom platform. Intel declined to reveal how much power the chip will actually consume and, at least for us, it is difficult to estimate that number. Today’s Atom relies on a 45 nm processor as well as an older chipset design, based on an updated i915 version, which is called System Controller Hub (SCH) as part of the Atom platform. The SCH is manufactured in 130 nm and simply too power hungry and too large to be used in small mobile devices such as smartphones.
Moorestown is expected to become Intel’s second serious attempt to make an impact in the cellphone market – the first was the Xscale processor, a technology which was acquired by Marvell in 2006. However, this time, the CPU seems to be much more focused and could turn into an interesting competitor to ARM processors.
It was the first time that a Moorestown chip was shown live to the public. What makes this processor special is the fact that it integrates graphics and all other chipset components on-die, which will make it substantially smaller and apparently less power hungry than today’s Atom generation.
Moorestown is promised to run at ten times less idle power than the current Atom platform. Intel declined to reveal how much power the chip will actually consume and, at least for us, it is difficult to estimate that number. Today’s Atom relies on a 45 nm processor as well as an older chipset design, based on an updated i915 version, which is called System Controller Hub (SCH) as part of the Atom platform. The SCH is manufactured in 130 nm and simply too power hungry and too large to be used in small mobile devices such as smartphones.
Moorestown is expected to become Intel’s second serious attempt to make an impact in the cellphone market – the first was the Xscale processor, a technology which was acquired by Marvell in 2006. However, this time, the CPU seems to be much more focused and could turn into an interesting competitor to ARM processors.
Monday, May 25, 2009
Intel486 SX & IntelDX2 and IntelDX4 Embedded Processor
The embedded Intel486™ SX processor provides high performance to 32-bit, embedded applications that do not required a floating-point unit. The embedded Intel486 SX processor is binary compatible with the Intel386™ and earlier Intel processors. Compared with the Intel386 processor, it provides faster execution of many commonly used instructions. It also provides the benefits of an integrated 8-Kbyte, write-through cache for code and data. Its data bus can operate in burst mode, which provides up to 106Mbps transfers for cache-line fills and instructions prefetches. Two component packages are available: a 196-Lead Plastic Quad Flat Pack (PQFP), and a 168-Pin Grid Array (PGA), both available for 5-volt designs. Both products operate at CLK frequencies up to 33MHz. The IntelDX2™ and IntelDX4™ processors bring the highest level of performance in the Intel486 family, created by such combined features as speed-multiplying technology, on-chip integration of Level I unified code and data cache, memory management unit with paging, and floating-point unit. The clock-multiplier allows the processor to operate at frequencies higher than the external memory bus. The integer unit uses RISC design techniques to provide single-clock-cycle execution of common instructions and general purpose registers for manipulating 32-bit addresses and data. The 8K on-chip Write-Through unified cache on the speed-doubled IntelDX2 processor, and the 16K on-chip Write-Back Enhanced unified cache on the speed-tripled IntelDX4 processor maintains the one-clock-per-instruction execution rate. Intel 486 processors provide support for multiprocessing systems. Support for multi-level caches reduces bus utilization, allowing multiple Intel486 processors to share a single memory bus. For the highest level of performance, choose the IntelDX2 and IntelDX4 processors
Intel Delays Centrino 2 Launch Over Chipset, Antenna Issues
Intel will delay the launch of its upcoming Centrino 2 platform for laptop computers to resolve issues related to the chipset and the antenna used with the wireless chipset.
Centrino 2, also called Montevina, is the next version of Intel's popular Centrino platform for laptops and was previously slated for a June launch. Computer makers are now expected to begin shipping Centrino 2 systems to retail shops in July, with production reaching high volumes during the first week of August, said Elvin Ong, an Intel spokesman in Singapore.
The Centrino 2 platform includes new Core 2 Duo and Core 2 Extreme Mobile processors, as well as an updated chipset with integrated graphics. On the wireless side, Centrino 2 will offer support for Wi-Fi, and WiMax is being offered as an option.
"We are taking the extra days to address two issues that require us to re-screen our chipsets with integrated graphics, and attend to some terms-and-conditions mistakes while filing and testing our wireless antennas," Ong said, adding that Intel expects Centrino 2 laptops to be available in time for the crucial back-to-school selling season.
Ong declined to detail the chipset issues that require Intel to re-screen these products, but said the move was necessary to insure the quality of the product. "We are not going to ship a sub-par product into the market," he said.
There is no problem with the processors used in Centrino 2, Ong said, calling these chips "healthy."
Centrino 2, also called Montevina, is the next version of Intel's popular Centrino platform for laptops and was previously slated for a June launch. Computer makers are now expected to begin shipping Centrino 2 systems to retail shops in July, with production reaching high volumes during the first week of August, said Elvin Ong, an Intel spokesman in Singapore.
The Centrino 2 platform includes new Core 2 Duo and Core 2 Extreme Mobile processors, as well as an updated chipset with integrated graphics. On the wireless side, Centrino 2 will offer support for Wi-Fi, and WiMax is being offered as an option.
"We are taking the extra days to address two issues that require us to re-screen our chipsets with integrated graphics, and attend to some terms-and-conditions mistakes while filing and testing our wireless antennas," Ong said, adding that Intel expects Centrino 2 laptops to be available in time for the crucial back-to-school selling season.
Ong declined to detail the chipset issues that require Intel to re-screen these products, but said the move was necessary to insure the quality of the product. "We are not going to ship a sub-par product into the market," he said.
There is no problem with the processors used in Centrino 2, Ong said, calling these chips "healthy."
Intel launching six-core CPUs this year
While most of us are still stuck with dual-core microchips (if that), Intel is prepping to launch a six-core processor in the second half of 2008. While the company currently offers a few four-core, or quad-core, models of its chips, most currently-sold machines still come with the more affordable dual-core CPUs installed.
The six-core chip is code-named Dunnington and will be built using the same 45nm process that Intel is using for its just-released Penryn-class chips. Another key feature is the chip's large level of level 3 (or L3) cache, 16MB, which is one of the memory buffers between the processor and RAM that are used to speed the overall performance of the chip. Most current Intel chips don't use any L3 cache, instead using only L2 cache: L3 has historically been limited to server-class computer chips, though AMD's Phenom chip has 2MB of L3 onboard. (Bottom line for those who don't understand any of this stuff: This chip ought to be blazing fast, at least on paper.)
The bigger question now becomes what Joe Average might actually do with six cores of processing power available to him. Numerous performance benchmarks have shown little real-world advantage in moving from two cores to four, even in high-end applications. Users who spend most of their time browsing the web and replying to email will find even less of a performance boost. That said, other computer components tend to get faster and more capable alongside new CPUs, so a Dunnington-based computer ought to feel very fast at booting, loading applications, and running complex processes like spell-checking a large document. Running an antivirus scan in the background which bogs down most computers should be no problem on a six-core CPU, too.
Expect Dunnington to arrive first for desktop PCs later this year. Intel hasn't said whether laptops are part of the plan for the technology, but given quad-core's limited introduction on notebook computers, I'd expect this to remain hard to find in a portable format for some time. More details as they emerge.
The six-core chip is code-named Dunnington and will be built using the same 45nm process that Intel is using for its just-released Penryn-class chips. Another key feature is the chip's large level of level 3 (or L3) cache, 16MB, which is one of the memory buffers between the processor and RAM that are used to speed the overall performance of the chip. Most current Intel chips don't use any L3 cache, instead using only L2 cache: L3 has historically been limited to server-class computer chips, though AMD's Phenom chip has 2MB of L3 onboard. (Bottom line for those who don't understand any of this stuff: This chip ought to be blazing fast, at least on paper.)
The bigger question now becomes what Joe Average might actually do with six cores of processing power available to him. Numerous performance benchmarks have shown little real-world advantage in moving from two cores to four, even in high-end applications. Users who spend most of their time browsing the web and replying to email will find even less of a performance boost. That said, other computer components tend to get faster and more capable alongside new CPUs, so a Dunnington-based computer ought to feel very fast at booting, loading applications, and running complex processes like spell-checking a large document. Running an antivirus scan in the background which bogs down most computers should be no problem on a six-core CPU, too.
Expect Dunnington to arrive first for desktop PCs later this year. Intel hasn't said whether laptops are part of the plan for the technology, but given quad-core's limited introduction on notebook computers, I'd expect this to remain hard to find in a portable format for some time. More details as they emerge.
AMD accuses Intel in vendor payoff scheme
There's no love lost between rival chipmakers AMD and Intel, and this week's news isn't going to improve the relationship. According to legal filings and news reports, AMD alleges that Intel has paid major computer manufacturers not to use AMD products. The company filed a 108-page document with the court this week containing more details of the alleged scheme, but many of the points remain redacted. (According to Intel, AMD isn't alleging any new complaints in its latest filing, it's just making a few more of those complaints available to to the public.)
AMD and Intel have been fighting it out in court since 2005, when AMD first accused Intel of being a monopoly under anti-trust law. Intel has long been the market share leader in computer CPUs (actually, it's been the leader ever since PCs were invented), but AMD began to challenge that leadership in 2003-'04 as AMD innovated some then-unprecedented features into its chips, releasing the first 64-bit CPU and the first dual-core chips for consumer-level computers.
AMD's lawsuit alleges that rather than innovate a competitive response, Intel instead leveraged its vast power in the market to have AMD pushed to the sidelines by paying Dell, Gateway, Acer, HP, and others not to use AMD chips. (Of course, Intel did eventually mount a response: When the Core series of chips were released in 2006, Intel regained its place as the producer of the best chips on the market, a spot it's held ever since.)
Though I am not a lawyer, pay-for-placement schemes like this, if the allegations are true, are not immediately and universally illegal (after all, this is a big reason why Blu-ray ultimately beat HD DVD), but it will be up to the courts to decide whether legal lines were crossed. Intel has denied any wrongdoing, saying in its filing that any payments made simply amount to rebates and price cuts.
I'll also note that all of the companies mentioned, to my knowledge, have always offered products with AMD chips, even though they may not make up a large part of the product portfolio. That said, AMD accuses Intel of a whole range of wrongdoing, including predatory pricing and even tampering with benchmarks to make its products look better. Again, Intel denies all such claims in its response.
There clearly won't be a resolution to this issue until it is dealt with by the courts, and that seems some years off, unless a settlement is brokered. (The trial is already three years old: The current kerfuffle is over how many depositions each side can call for, so we're in for a long haul.)
AMD and Intel have been fighting it out in court since 2005, when AMD first accused Intel of being a monopoly under anti-trust law. Intel has long been the market share leader in computer CPUs (actually, it's been the leader ever since PCs were invented), but AMD began to challenge that leadership in 2003-'04 as AMD innovated some then-unprecedented features into its chips, releasing the first 64-bit CPU and the first dual-core chips for consumer-level computers.
AMD's lawsuit alleges that rather than innovate a competitive response, Intel instead leveraged its vast power in the market to have AMD pushed to the sidelines by paying Dell, Gateway, Acer, HP, and others not to use AMD chips. (Of course, Intel did eventually mount a response: When the Core series of chips were released in 2006, Intel regained its place as the producer of the best chips on the market, a spot it's held ever since.)
Though I am not a lawyer, pay-for-placement schemes like this, if the allegations are true, are not immediately and universally illegal (after all, this is a big reason why Blu-ray ultimately beat HD DVD), but it will be up to the courts to decide whether legal lines were crossed. Intel has denied any wrongdoing, saying in its filing that any payments made simply amount to rebates and price cuts.
I'll also note that all of the companies mentioned, to my knowledge, have always offered products with AMD chips, even though they may not make up a large part of the product portfolio. That said, AMD accuses Intel of a whole range of wrongdoing, including predatory pricing and even tampering with benchmarks to make its products look better. Again, Intel denies all such claims in its response.
There clearly won't be a resolution to this issue until it is dealt with by the courts, and that seems some years off, unless a settlement is brokered. (The trial is already three years old: The current kerfuffle is over how many depositions each side can call for, so we're in for a long haul.)
Intel® Core™2 Quad Processors
New power, new speed. Quad-core from Intel.Leaders of the pack seeking monster performance, look no further. With four execution cores, the Intel® Core™2 Quad processor blows through processor-intensive tasks in demanding multitasking environments and makes the most of highly threaded applications. Whether you're creating multimedia, annihilating your gaming enemies, or running compute-intensive applications at one time, new quad-core processing will change the way you do everything. Pioneer the new world of quad-core and unleash the power of multithreading.Features and benefits The high end just got higher. Introducing the latest additions to the Core 2 Quad family built using Intel's 45nm technology and hafnium-infused circuitry. These new processors deliver amazing performance and power efficiency. Whether it's encoding, rendering, editing, or streaming, make the most of your professional-grade multimedia applications with a PC powered by the Intel® Core™2 Quad processor. With four processing cores and up to 12MB of shared L2 cache¹ and up to 1333 MHz Front Side Bus, more intensive entertainment and more multitasking can bring a multimedia powerhouse to your house.Intel® Wide Dynamic Execution, enabling delivery of more instructions per clock cycle to improve execution time and energy efficiencyIntel® Intelligent Power Capability, designed to deliver more energy-efficient performanceIntel® Smart Memory Access, improving system performance by optimizing the use of the available data bandwidthIntel® Advanced Smart Cache, providing a higher-performance, more efficient cache subsystem. Optimized for multi-core and dual-core processorsIntel® Advanced Digital Media Boost, accelerating a broad range of applications, including video, speech and image, photo processing, encryption, financial, engineering and scientific applications. Now improved even further on 45nm versions with Intel® HD Boost utilizing new SSE4 instructions for even better multimedia performanceMake highly threaded applications happy. Get in on the increasing number of highly threaded programs with quad-core technology from Intel. With four processing cores, an Intel Core 2 Quad processor-based PC will fuel more intensive entertainment and more media multitasking than ever.
AMD Phenom X3 8750 Triple-Core Processor Review
AMD announced the availability of three new AMD Phenom X3 triple-core processors that feature the latest B3 stepping. AMD first announced triple-core processors back in September 2007, but only just recently launched the AMD Phenom X3 8000 series last month. As the world's only triple-core x86 desktop processor, the Phenom X3 processors make for a very interesting product, but enthusiasts and consumers that follow processor launches had some concerns about the new triple-core processors. AMD states that the triple-core processors integrate three computational cores on a single die of silicon, but in reality it is a quad-core processor with one of the cores disabled. The initial batch of triple-core processors also suffered from the same TLB erratum that was found on the quad-cores since they made from the same B2 die steppings. When AMD announced the 50-series of quad-core processors they brought hope to AMD fans around the world as the TLB erratum was fixed thanks to a new and improved B3 stepping. AMD has finally brought the 'B3' stepping to the triple-cores and has announced three new AMD Phenom X3 triple-core processors that make up the new '50-series'. Without further ado here are the new AMD Phenom X3 processors and their price points.
• AMD Phenom X3 8750 triple-core processor - (2.4GHz) - $195
• AMD Phenom X3 8650 triple-core processor - (2.3GHz) - $165
• AMD Phenom X3 8450 triple-core processor - (2.1GHz) - $145
As you can see triple-core pricing starts at $145 for the 2.1GHz Phenom X3 8450 to $195 for the top end 2.4GHz Phenom X3 8750 triple-core processor. While these prices are very competitive, they are really close to that of the AMD Phenom X4 series. For example the AMD Phenom X4 9750 Quad-Core Processor is currently $214.99 shipped on our shopping service. Is it worth the extra $20 to get a quad-core or should one save the cash and go triple-core? You also have the2.2GHz Phenom X4 9550 for the same exact price of $195 plus shipping. If that question isn't tough keep in mind that Intel just cut prices this week, so now you have the 3GHz Intel E6850 for $183 and the 2.4GHz Intel Q6600 for $224.
The processor we will be looking at today is the AMD Phenom X3 8750 triple-core processor. The AMD Phenom X3 8750 is a 2.4GHz processor manufactured using AMD's 65nm Silicon on Insulator process technology. The chip has a Max TDP of 95W and has official support for a 1.8GHz memory controller and HT 3.0 frequency with Dual Dynamic Power Management technology. AMD informed Legit Reviews that they do have higher clock frequencies on the road map later this year as well as 65W Phenom X3 triple-core processors. The 65W triple-core processors will be aimed at HTPC users and those looking to build energy efficient computers. AMD will continue to expand and introduce new Phenom X3 processors in the months ahead, so expect to see and hear more about them!
• AMD Phenom X3 8750 triple-core processor - (2.4GHz) - $195
• AMD Phenom X3 8650 triple-core processor - (2.3GHz) - $165
• AMD Phenom X3 8450 triple-core processor - (2.1GHz) - $145
As you can see triple-core pricing starts at $145 for the 2.1GHz Phenom X3 8450 to $195 for the top end 2.4GHz Phenom X3 8750 triple-core processor. While these prices are very competitive, they are really close to that of the AMD Phenom X4 series. For example the AMD Phenom X4 9750 Quad-Core Processor is currently $214.99 shipped on our shopping service. Is it worth the extra $20 to get a quad-core or should one save the cash and go triple-core? You also have the2.2GHz Phenom X4 9550 for the same exact price of $195 plus shipping. If that question isn't tough keep in mind that Intel just cut prices this week, so now you have the 3GHz Intel E6850 for $183 and the 2.4GHz Intel Q6600 for $224.
The processor we will be looking at today is the AMD Phenom X3 8750 triple-core processor. The AMD Phenom X3 8750 is a 2.4GHz processor manufactured using AMD's 65nm Silicon on Insulator process technology. The chip has a Max TDP of 95W and has official support for a 1.8GHz memory controller and HT 3.0 frequency with Dual Dynamic Power Management technology. AMD informed Legit Reviews that they do have higher clock frequencies on the road map later this year as well as 65W Phenom X3 triple-core processors. The 65W triple-core processors will be aimed at HTPC users and those looking to build energy efficient computers. AMD will continue to expand and introduce new Phenom X3 processors in the months ahead, so expect to see and hear more about them!
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