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Introduction to Today’s Microprocessor trends
From their humble beginning 25 years ago, microprocessors have proliferated into an astounding range of chips, powering devices ranging from telephones to supercomputers. Today, microprocessors for personal computers get widespread attention--and have enabled Intel to become the world's largest semiconductor maker. In addition, embedded microprocessors are at the heart of a diverse range of devices that have become staples of affluent consumers worldwide.
MAJC (pronounced "magic") is an acronym for "Microprocessor Architecture for Java Computing." MAJC is a microprocessor architecture designed to meet the broadband demands of the 21st century. Addressing the challenge of high bandwidth and the need for state-of-the-art computational performance, MAJC architecture is characterized by:
• Scalability to take full advantage of advances in semiconductor technology.
. Broad scalabilty to systems with large numbers of processors.
• A new standard of performance for applications with DSP or New Media computational needs.
• Focus on bandwidth throughput.
Processor Needs into the 21st Century
Several microprocessor trends were identified and accommodated in the design of the MAJC Architecture:
• Convergence of communication media and computers (audio, video, and data) require processors to compute information at wire speed.
• Advancements in semiconductor technology will provide rapidly-increasing resources on each microprocessor chip.
• As microprocessors are used in increasingly disparate applications from smart cards to supercomputers there is great value in the ability to create a wide span of implementations from a given processor architecture.
• Software, over time, will become independent of specific instruction sets; Just-In-Time (JIT) compilation techniques are expected to predominate for general-purpose processors and eliminate binary compatibility issues.
• Bandwidth between processors, memory, and I/O devices needs to be available to move information in real-time.
• The content processed by computers is becoming increasingly media-rich; DSP-like functions are required to process this media content.
Features of Today’s Microprocessors.
• Modular Architecture
To support the creation of a wide range of implementations the architecture supports modular implementations. A basic implementation might comprise a single processor unit with four functional units. By replicating those design elements, an implementation can be built that includes a few or even hundreds of processors, each with four functional units, each of which can operate on many data items simultaneously with parallel-operation (SIMD) instructions. Conversely, a tiny application-specific implementation can be derived from the basic one by trimming the complement of functional units down to one or two and/or removing hardware support for any instructions not needed in its target application.
• Multiple Processor Units per Cluster
Although a MAJC implementation can be a single processor unit, the architecture explicitly incorporates the concept of multiple processors per implementation. Given 21st century semiconductor density, each such array of processor units or "processor cluster" can be implemented on a single chip. As semiconductor technology advances, clusters with more processors per chip can be implemented.
• Multiple Functional Units per Processor Unit
Every MAJC processor unit can issue multiple instructions simultaneously, one to each of its functional units. Most implementations are expected to provide two to four functional units per processor unit.
A Brief History of the Pentium Processor Family
The Pentium family of processors, which has its roots in the Intel486(TM) processor, uses the Intel486 instruction set (with a few additional instructions). The term ''Pentium processor'' refers to a family of microprocessors that share a common architecture and instruction set. The first Pentium processors (the P5 variety) were introduced in 1993. This 5.0-V processor was fabricated in 0.8-micron bipolar complementary metal oxide semiconductor (BiCMOS) technology. The P5 processor runs at a clock frequency of either 60 or 66 MHz and has 3.1 million transistors.
The next version of the Pentium processor family, the P54C processor, was introduced in 1994. The P54C processors are fabricated in 3.3-V, 0.6-micron BiCMOS technology. The P54C processor also has System Management Mode (SMM) for advanced power management
The Intel Pentium processor, like its predecessor the Intel486 microprocessor, is fully software compatible with the installed base of over 100 million compatible Intel architecture systems. In addition, the Intel Pentium processor provides new levels of performance to new and existing software through a reimplementation of the Intel 32-bit instruction set architecture using the latest, most advanced, design techniques. Optimized, dual execution units provide one-clock execution for "core" instructions, while advanced technology, such as superscalar architecture, branch prediction, and execution pipelining, enables multiple instructions to execute in parallel with high efficiency. Separate code and data caches combined with wide 128-bit and 256-bit internal data paths and a 64-bit, burstable, external bus allow these performance levels to be sustained in cost-effective systems. The application of this advanced technology in the Intel Pentium processor brings "state of the art" performance and capability to existing Intel architecture software as well as new and advanced applications.
The Pentium processor has two primary operating modes and a "system management mode."
The operating mode determines which instructions and architectural features are accessible.
These modes are:
• Protected Mode
This is the native state of the microprocessor. In this mode all instructions and architectural features are available, providing the highest performance and capability. This is the recommended mode that all new applications and operating systems should
target. Among the capabilities of protected mode is the ability to directly execute "real-address mode" 8086 software in a protected, multi-tasking environment. This feature is known as Virtual-8086 "mode" (or "V86 mode"). Virtual-8086 "mode" however, is not actually a processor "mode," it is in fact an attribute which can be enabled for any task (with
Advanced Features
The Pentium P54C processor is the product of a marriage between the Pentium processor's architecture and Intel's 0.6-micron, 3.3-V BiCMOS process The Pentium processor achieves higher performance than the fastest Intel486 processor by making use of the following advanced technologies.
• Superscalar Execution: The Intel486 processor can execute only one instruction at a time. With superscalar execution, the Pentium processor can sometimes execute two instructions simultaneously.
• Branch Target Buffer: The Pentium processor fetches the branch target instruction before it executes the branch instruction.
• 64-Bit Bus: With its 64-bit-wide external data bus (in contrast to the Intel486 processor's 32-bit- wide external bus) the Pentium processor can handle up to twice the data load of the Intel486 processor at the same clock frequency.
• Instruction Optimization: The Pentium processor has been optimized to run critical instructions in fewer clock cycles than the Intel486 processor.
• Floating-Point Optimization: The Pentium processor executes individual instructions faster through execution pipelining, which allows multiple floating-point instructions to be executed at the same time.
• Pentium Extensions: The Pentium processor has fewer instruction set extensions than the Intel486 processors. The Pentium processor also has a set of extensions for multiprocessor (MP) operation. This makes a computer with multiple Pentium processors possible.
A Pentium system, with its wide, fast buses, advanced write-back cache/memory subsystem, and powerful processor, will deliver more power for today's software applications, and also optimize the performance of advanced 32-bit operating systems (such as Windows 95) and 32-bit software applications.
Computer software is designed to operate through a series of architectural layers. Quite simply, the lowest or inner layer interfaces directly with the computer hardware and provides a set of services to the next layer above. This layer interfaces with the layer below and provides a set of services to the layer above, and so forth. The highest layer interfaces with the layer below and provides a set of services to the computer operator or end user, but cannot interface directly with the computer hardware.
There are multiple architectural layers within the major layers described above, and layers that communicate as messengers between various levels.
The diagram below illustrates the two most basic layers of computer software, namely operating systems and applications software.
Day by day, we see new computer technologies emerging, taking shape and literally transforming our entire information technology world. Discoveries are made on a daily basis in all areas of computer technology. Our passion is to share these new developments with you.
Subscribe to our 100% Free newsletter right now!
New Computer Technology is becoming such an integral part of our lives, that it is not only much of the time overlooked, but often it seems we can't even keep up with the latest advances.
Pc's and computers have more capacity, processing power, and features than ever before.
We regularly feature stories on the latest advances in computer and pc technology, and we do so with the viewpont that a single breakthrough in some area of computer technology may have an impact on our lives in a totally different dimension.
Because all these technologies are becoming more 'inter-twined', one area often affects another. On our site, we try to give you a glimpse of how various technologies are developing and impacting our lives, including new developments in the area of computing.
www.rdhrsindhpk.com
Friday, May 28, 2010
the architectural trends in today’s microprocessor
Introduction to Today’s Microprocessor trends
From their humble beginning 25 years ago, microprocessors have proliferated into an astounding range of chips, powering devices ranging from telephones to supercomputers. Today, microprocessors for personal computers get widespread attention--and have enabled Intel to become the world's largest semiconductor maker. In addition, embedded microprocessors are at the heart of a diverse range of devices that have become staples of affluent consumers worldwide.
MAJC (pronounced "magic") is an acronym for "Microprocessor Architecture for Java Computing." MAJC is a microprocessor architecture designed to meet the broadband demands of the 21st century. Addressing the challenge of high bandwidth and the need for state-of-the-art computational performance, MAJC architecture is characterized by:
• Scalability to take full advantage of advances in semiconductor technology.
. Broad scalabilty to systems with large numbers of processors.
• A new standard of performance for applications with DSP or New Media computational needs.
• Focus on bandwidth throughput.
Processor Needs into the 21st Century
Several microprocessor trends were identified and accommodated in the design of the MAJC Architecture:
• Convergence of communication media and computers (audio, video, and data) require processors to compute information at wire speed.
• Advancements in semiconductor technology will provide rapidly-increasing resources on each microprocessor chip.
• As microprocessors are used in increasingly disparate applications from smart cards to supercomputers there is great value in the ability to create a wide span of implementations from a given processor architecture.
• Software, over time, will become independent of specific instruction sets; Just-In-Time (JIT) compilation techniques are expected to predominate for general-purpose processors and eliminate binary compatibility issues.
• Bandwidth between processors, memory, and I/O devices needs to be available to move information in real-time.
• The content processed by computers is becoming increasingly media-rich; DSP-like functions are required to process this media content.
Features of Today’s Microprocessors.
• Modular Architecture
To support the creation of a wide range of implementations the architecture supports modular implementations. A basic implementation might comprise a single processor unit with four functional units. By replicating those design elements, an implementation can be built that includes a few or even hundreds of processors, each with four functional units, each of which can operate on many data items simultaneously with parallel-operation (SIMD) instructions. Conversely, a tiny application-specific implementation can be derived from the basic one by trimming the complement of functional units down to one or two and/or removing hardware support for any instructions not needed in its target application.
• Multiple Processor Units per Cluster
Although a MAJC implementation can be a single processor unit, the architecture explicitly incorporates the concept of multiple processors per implementation. Given 21st century semiconductor density, each such array of processor units or "processor cluster" can be implemented on a single chip. As semiconductor technology advances, clusters with more processors per chip can be implemented.
• Multiple Functional Units per Processor Unit
Every MAJC processor unit can issue multiple instructions simultaneously, one to each of its functional units. Most implementations are expected to provide two to four functional units per processor unit.
A Brief History of the Pentium Processor Family
The Pentium family of processors, which has its roots in the Intel486(TM) processor, uses the Intel486 instruction set (with a few additional instructions). The term ''Pentium processor'' refers to a family of microprocessors that share a common architecture and instruction set. The first Pentium processors (the P5 variety) were introduced in 1993. This 5.0-V processor was fabricated in 0.8-micron bipolar complementary metal oxide semiconductor (BiCMOS) technology. The P5 processor runs at a clock frequency of either 60 or 66 MHz and has 3.1 million transistors.
The next version of the Pentium processor family, the P54C processor, was introduced in 1994. The P54C processors are fabricated in 3.3-V, 0.6-micron BiCMOS technology. The P54C processor also has System Management Mode (SMM) for advanced power management
The Intel Pentium processor, like its predecessor the Intel486 microprocessor, is fully software compatible with the installed base of over 100 million compatible Intel architecture systems. In addition, the Intel Pentium processor provides new levels of performance to new and existing software through a reimplementation of the Intel 32-bit instruction set architecture using the latest, most advanced, design techniques. Optimized, dual execution units provide one-clock execution for "core" instructions, while advanced technology, such as superscalar architecture, branch prediction, and execution pipelining, enables multiple instructions to execute in parallel with high efficiency. Separate code and data caches combined with wide 128-bit and 256-bit internal data paths and a 64-bit, burstable, external bus allow these performance levels to be sustained in cost-effective systems. The application of this advanced technology in the Intel Pentium processor brings "state of the art" performance and capability to existing Intel architecture software as well as new and advanced applications.
The Pentium processor has two primary operating modes and a "system management mode."
The operating mode determines which instructions and architectural features are accessible.
These modes are:
• Protected Mode
This is the native state of the microprocessor. In this mode all instructions and architectural features are available, providing the highest performance and capability. This is the recommended mode that all new applications and operating systems should
target. Among the capabilities of protected mode is the ability to directly execute "real-address mode" 8086 software in a protected, multi-tasking environment. This feature is known as Virtual-8086 "mode" (or "V86 mode"). Virtual-8086 "mode" however, is not actually a processor "mode," it is in fact an attribute which can be enabled for any task (with
Advanced Features
The Pentium P54C processor is the product of a marriage between the Pentium processor's architecture and Intel's 0.6-micron, 3.3-V BiCMOS process The Pentium processor achieves higher performance than the fastest Intel486 processor by making use of the following advanced technologies.
• Superscalar Execution: The Intel486 processor can execute only one instruction at a time. With superscalar execution, the Pentium processor can sometimes execute two instructions simultaneously.
• Branch Target Buffer: The Pentium processor fetches the branch target instruction before it executes the branch instruction.
• 64-Bit Bus: With its 64-bit-wide external data bus (in contrast to the Intel486 processor's 32-bit- wide external bus) the Pentium processor can handle up to twice the data load of the Intel486 processor at the same clock frequency.
• Instruction Optimization: The Pentium processor has been optimized to run critical instructions in fewer clock cycles than the Intel486 processor.
• Floating-Point Optimization: The Pentium processor executes individual instructions faster through execution pipelining, which allows multiple floating-point instructions to be executed at the same time.
• Pentium Extensions: The Pentium processor has fewer instruction set extensions than the Intel486 processors. The Pentium processor also has a set of extensions for multiprocessor (MP) operation. This makes a computer with multiple Pentium processors possible.
A Pentium system, with its wide, fast buses, advanced write-back cache/memory subsystem, and powerful processor, will deliver more power for today's software applications, and also optimize the performance of advanced 32-bit operating systems (such as Windows 95) and 32-bit software applications.
System Requirement Analysis
2.1 PROBLEM DEFINITION
In traditional computerized record keeping system of tailor shop has several drawbacks were present due to which it was hard to rely. It took a lot of time to conclude the fact. this result in time-consuming and somewhat inaccurate system, which causes great trouble for users. Its major drawbacks in the sense of working are:
• Accuracy : Business transactions not be accurately understandable, thus creating problems for clients.
• Economy : In the sense of economy or money matters, the traditional record keeping system also shows poor performance; as it requires lot of money to record.
• Timelines : The processing speed of traditional record keeping system is also very slow as compared to system, which gives result in very quick manner at the same time to all the connected clients.
• Capacity : It also requires large capacity to put the transactions, which may save in any physical medium i.e. storage media.
• Throughput : The output of traditional communication system is not very good as transactions can’t be properly recorded. Therefore, to make it accurate and applicable lots of time and efforts are required.
2.1.1 Evaluating This Problem
The main thing about the above-discussed problem is that it is very much slower and hard to accomplish. It also needs time to be done and even after that it is not much accurate as one expected. It also has many economical and social problems, which affect the coming result. In addition, many inconsistencies disrupt the process and make it a value structure. Therefore, I need a system, which overcomes all of these above given problems.
To solve this problem, I suggest two solutions. First, enhancing the traditional system by increasing the users, which though give some good throughput, but more money will be spent and there is also no guarantee of the accurate information’s. second, developing a special standardized record keeping system. Second one is the correct solution of the above given problem. Because developing a standard record keeping system will surely give accurate and rapid results and also the throughput will be up-to-date and error-free.
Therefore, this system ensures accuracy and also saves time of users to not to wait to verify the information’s and the data to all the connected users one by one. Therefore, it saves time to interact with others. Therefore, this computerized record keeping system is fast and accurate.
2.2 FEASIBILITY REPORT
During our system study and going through various phases, we observed that a biggest problem in traditional communication system is its slowness and verification. Therefore, sometimes it really makes the difference in the work regarding time; the person using the system must know all the transactions and their preferences as well, to transmit a audio/video file. Otherwise he/she had to go through whole system wasting all the time to locate the transaction.
Technical Feasibility
1. We have to create a computerized recording system of tailor shop to share business information and business activities information with other connected users.
2. Visual Basic is very much reliable, robust and platform independent and its used all over the world.
3. Any one can access this technology easily due to its format that meets the user need.
Economical Feasibility
1. It required a full time system study to make strong entity relationships that automatically do main work such as business information and receiving of other business information.
2. Cost of system study is not very mush.
3. Not much money is spent on buying the hardware used to operate this system.
Operational Feasibility
1. The system should be operated due to its performance and ease of recording and receiving of business information.
2. This system will be provided basic capability of accessing shop information.
3. It is easy to configure and use.
4. Operational times is very low (through mainly depend on the user machine).
2.2.1 Management and Legal Feasibility
1. This system provides full supports to the users to manage and control the system and getting easy access to the overall record keeping process.
2. Through this system study a user can not only understand and perform the process, but it can also get the response in a quick way.
3. If we talk about its legal point of view, this system has a benefit that it is a freeware that any organization can easily use it.
2.3 COST & RESOURCE ANALYSIS
For this project, less expensive and simple hardware and software is required. But if we take the real advantage of the computerized record keeping system of tailor shop, it is really a cheaper software system. this means that cost of the several hardware and software pieces will be cut off, which is much favorable thing for client. Main things about the system’s hardware and software requirements are as under:
2.3.1 Hardware Required
o Pentium-III 400 MHz or higher
o 128 MB of RAM
o 10 MB Hard Disk Space Minimum
o Color Monitor
o Keyboard
o Mouse (Optional)
o CD-ROM (Optional)
o
Softwares Required
o Windows XP of higher
o Visual Basic 6.0
o Microsoft Access
2.1 PROBLEM DEFINITION
In traditional computerized record keeping system of tailor shop has several drawbacks were present due to which it was hard to rely. It took a lot of time to conclude the fact. this result in time-consuming and somewhat inaccurate system, which causes great trouble for users. Its major drawbacks in the sense of working are:
• Accuracy : Business transactions not be accurately understandable, thus creating problems for clients.
• Economy : In the sense of economy or money matters, the traditional record keeping system also shows poor performance; as it requires lot of money to record.
• Timelines : The processing speed of traditional record keeping system is also very slow as compared to system, which gives result in very quick manner at the same time to all the connected clients.
• Capacity : It also requires large capacity to put the transactions, which may save in any physical medium i.e. storage media.
• Throughput : The output of traditional communication system is not very good as transactions can’t be properly recorded. Therefore, to make it accurate and applicable lots of time and efforts are required.
2.1.1 Evaluating This Problem
The main thing about the above-discussed problem is that it is very much slower and hard to accomplish. It also needs time to be done and even after that it is not much accurate as one expected. It also has many economical and social problems, which affect the coming result. In addition, many inconsistencies disrupt the process and make it a value structure. Therefore, I need a system, which overcomes all of these above given problems.
To solve this problem, I suggest two solutions. First, enhancing the traditional system by increasing the users, which though give some good throughput, but more money will be spent and there is also no guarantee of the accurate information’s. second, developing a special standardized record keeping system. Second one is the correct solution of the above given problem. Because developing a standard record keeping system will surely give accurate and rapid results and also the throughput will be up-to-date and error-free.
Therefore, this system ensures accuracy and also saves time of users to not to wait to verify the information’s and the data to all the connected users one by one. Therefore, it saves time to interact with others. Therefore, this computerized record keeping system is fast and accurate.
2.2 FEASIBILITY REPORT
During our system study and going through various phases, we observed that a biggest problem in traditional communication system is its slowness and verification. Therefore, sometimes it really makes the difference in the work regarding time; the person using the system must know all the transactions and their preferences as well, to transmit a audio/video file. Otherwise he/she had to go through whole system wasting all the time to locate the transaction.
Technical Feasibility
1. We have to create a computerized recording system of tailor shop to share business information and business activities information with other connected users.
2. Visual Basic is very much reliable, robust and platform independent and its used all over the world.
3. Any one can access this technology easily due to its format that meets the user need.
Economical Feasibility
1. It required a full time system study to make strong entity relationships that automatically do main work such as business information and receiving of other business information.
2. Cost of system study is not very mush.
3. Not much money is spent on buying the hardware used to operate this system.
Operational Feasibility
1. The system should be operated due to its performance and ease of recording and receiving of business information.
2. This system will be provided basic capability of accessing shop information.
3. It is easy to configure and use.
4. Operational times is very low (through mainly depend on the user machine).
2.2.1 Management and Legal Feasibility
1. This system provides full supports to the users to manage and control the system and getting easy access to the overall record keeping process.
2. Through this system study a user can not only understand and perform the process, but it can also get the response in a quick way.
3. If we talk about its legal point of view, this system has a benefit that it is a freeware that any organization can easily use it.
2.3 COST & RESOURCE ANALYSIS
For this project, less expensive and simple hardware and software is required. But if we take the real advantage of the computerized record keeping system of tailor shop, it is really a cheaper software system. this means that cost of the several hardware and software pieces will be cut off, which is much favorable thing for client. Main things about the system’s hardware and software requirements are as under:
2.3.1 Hardware Required
o Pentium-III 400 MHz or higher
o 128 MB of RAM
o 10 MB Hard Disk Space Minimum
o Color Monitor
o Keyboard
o Mouse (Optional)
o CD-ROM (Optional)
o
Softwares Required
o Windows XP of higher
o Visual Basic 6.0
o Microsoft Access
Tuesday, May 25, 2010
Software architectural layers
Computer software is designed to operate through a series of architectural layers. Quite simply, the lowest or inner layer interfaces directly with the computer hardware and provides a set of services to the next layer above. This layer interfaces with the layer below and provides a set of services to the layer above, and so forth. The highest layer interfaces with the layer below and provides a set of services to the computer operator or end user, but cannot interface directly with the computer hardware.
There are multiple architectural layers within the major layers described above, and layers that communicate as messengers between various levels.
The diagram below illustrates the two most basic layers of computer software, namely operating systems and applications software.
Saturday, May 22, 2010
New computer tools
Laptops »
New Vaio VPCX128LG/X is the newest laptop from Sony company and launched one month back.This laptop is 11.1 inches (28.2 cm ) of lcd and light extreme thin mobile laptop with highly plus long duration battery.It has extremely high performance for wireless connectivity like Bluetooth with a fast 128 gb SSD which is resistant to shocks
Features :This newest laptop comes with loaded software of genuine windows 7 which is the best for business that can be useful in many ways even with all entertainment features.This laptop based on …
Computers »
This is an old processor for core i7 but it is not too old and gives better perfomance speed for enthusiasts.The price is even low while compared the i7 processor.
This intel core i7 processor automatically allocates power processing wherever it needed whether we are creating HD videos,photos or playing the games.from this processor one can use multitask with easy and more productive.
The specifications of this processor comes with 2.66 Ghz to 3.20 Ghz with intel turbo boost technology.Corei5 and i7 both are having 8mb cache so their is no …
Computers »
Intel has been already launched core 17 processor that is the newest one from Intel company.This new intel processor gives very high speed and it is very good for enthusiasts.It will handle multitasks programs,applications once at a time even for media.
From the speed of the processor you will get maximum performance whatever you want to do.This processor will be turbo boost technology which gives maximum performance for your needs.
This product comes with the speed of 3.06 GHz, 2.93 GHz, and 2.66 GHz core speed.The latest is 3.06 ghz that gives …
Computers »
This is the newest product from Intel.This desktop is very attractive for users those who are looking for gaming,graphics Bluetooth Nvidia.Graphics is most important for everyone and this new motherbard has great features with great performance.
Processor :Since the product launch the new mother board supports for intel Intel® Core™ i7-800 processor series in an LGA1156 socket or Intel® Core™ i5-700 processor series in an LGA1156 socket.both the processors are supported but in future new processors would come and it may also be supported but please check the item before inserting …
Computers, Headline »
Asus has been recently launched new motherboard p6t6 WS Revolution.This new motherboard works as an ideal powerful workstation with the Intel® X58 / ICH10R.The chipset can handle various types of programs games,multimedia,graphics and even it will makes more speed to the cpu.The processsor which can be used is Intel® Core™ i7 Processor Extreme Edition ,Core™ i7 Processor ,Xeon® 3500 Series Processor.
For the latest demand in the industry asus has been made this chipset you can see full details about this pc and functioning
New Vaio VPCX128LG/X is the newest laptop from Sony company and launched one month back.This laptop is 11.1 inches (28.2 cm ) of lcd and light extreme thin mobile laptop with highly plus long duration battery.It has extremely high performance for wireless connectivity like Bluetooth with a fast 128 gb SSD which is resistant to shocks
Features :This newest laptop comes with loaded software of genuine windows 7 which is the best for business that can be useful in many ways even with all entertainment features.This laptop based on …
Computers »
This is an old processor for core i7 but it is not too old and gives better perfomance speed for enthusiasts.The price is even low while compared the i7 processor.
This intel core i7 processor automatically allocates power processing wherever it needed whether we are creating HD videos,photos or playing the games.from this processor one can use multitask with easy and more productive.
The specifications of this processor comes with 2.66 Ghz to 3.20 Ghz with intel turbo boost technology.Corei5 and i7 both are having 8mb cache so their is no …
Computers »
Intel has been already launched core 17 processor that is the newest one from Intel company.This new intel processor gives very high speed and it is very good for enthusiasts.It will handle multitasks programs,applications once at a time even for media.
From the speed of the processor you will get maximum performance whatever you want to do.This processor will be turbo boost technology which gives maximum performance for your needs.
This product comes with the speed of 3.06 GHz, 2.93 GHz, and 2.66 GHz core speed.The latest is 3.06 ghz that gives …
Computers »
This is the newest product from Intel.This desktop is very attractive for users those who are looking for gaming,graphics Bluetooth Nvidia.Graphics is most important for everyone and this new motherbard has great features with great performance.
Processor :Since the product launch the new mother board supports for intel Intel® Core™ i7-800 processor series in an LGA1156 socket or Intel® Core™ i5-700 processor series in an LGA1156 socket.both the processors are supported but in future new processors would come and it may also be supported but please check the item before inserting …
Computers, Headline »
Asus has been recently launched new motherboard p6t6 WS Revolution.This new motherboard works as an ideal powerful workstation with the Intel® X58 / ICH10R.The chipset can handle various types of programs games,multimedia,graphics and even it will makes more speed to the cpu.The processsor which can be used is Intel® Core™ i7 Processor Extreme Edition ,Core™ i7 Processor ,Xeon® 3500 Series Processor.
For the latest demand in the industry asus has been made this chipset you can see full details about this pc and functioning
Friday, May 21, 2010
computer technology
Day by day, we see new computer technologies emerging, taking shape and literally transforming our entire information technology world. Discoveries are made on a daily basis in all areas of computer technology. Our passion is to share these new developments with you.
Subscribe to our 100% Free newsletter right now!
New Computer Technology is becoming such an integral part of our lives, that it is not only much of the time overlooked, but often it seems we can't even keep up with the latest advances.
Pc's and computers have more capacity, processing power, and features than ever before.
We regularly feature stories on the latest advances in computer and pc technology, and we do so with the viewpont that a single breakthrough in some area of computer technology may have an impact on our lives in a totally different dimension.
Because all these technologies are becoming more 'inter-twined', one area often affects another. On our site, we try to give you a glimpse of how various technologies are developing and impacting our lives, including new developments in the area of computing.
www.rdhrsindhpk.com