Delivering the Best Overall Performance. Period.
Built on the innovative Intel® Core™ microarchitecture, the Intel Core 2 Duo desktop processor delivers revolutionary dual-core performance and breakthrough processor energy efficiency. With Intel® Wide Dynamic Execution, Intel® Smart Memory Access, Intel® Advanced Smart Cache, and Intel® Digital Media Boost, this new processor is designed to do more in less time. Additional features, which support enhanced security, virtualization, and 64-bit computing, make the Intel Core 2 Duo the most impressive processor developed for an increasingly multimedia-centered, high-definition world.
Energy Efficiency
Design changes in the Intel Core 2 Duo processors that improve performance also increase processor energy efficiency by operating at lower frequencies that require less power to run. Intel® Intelligent Power Capability, a feature that optimizes energy usage of the processor cores, turns on computing functions only when needed. These more energyefficient processors support smaller, more capable, and quieter desktop PCs to conserve critical power resources.
Discover the world's best processors built for the world's best platforms with Intel Core 2 Duo processors.
Features
* Dual-Core Processing
Two independent processor cores in one physical package run at the same frequency, and share up to 6 MB of L2 cache as well as up to a 1333 MHz Front Side Bus, for truly parallel computing.
* Intel® Wide Dynamic Execution
Improves execution speed and efficiency, delivering more instructions per clock cycle. Each core can complete up to four full instructions simultaneously.
* Intel® Smart Memory Access
Optimizes the use of the data bandwidth from the memory subsystem to accelerate out-of-order execution. A newly designed prediction mechanism reduces the time in-flight instructions have to wait for data. New pre-fetch algorithms move data from system memory into fast L2 cache in advance of execution. These functions keep the pipeline full, improving instruction throughput and performance. 45nm versions further improve this feature, with more efficient methods of loading and storing data in main memory.
* Intel® Advanced Smart Cache
The shared L2 cache is dynamically allocated to each processor core based on workload. This efficient, dual-core optimized implementation increases the probability that each core can access data from fast L2 cache, significantly reducing latency to frequently used data and improving performance.
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Saturday, November 1, 2008
Intel Core 2 Quad Q9550 Processor BX80569Q9550
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 cache and up to 1333 MHz Front Side Bus, more intensive entertainment and more multitasking can bring a multimedia powerhouse to your home.
The latest versions built on Intel's 45nm manufacturing technology take these benefits to a whole new level. This new technology uses hafnium-infused Hi-k transistors, enabling even more processor performance by doubling the transistor density, improving efficiency and speed relative to the previous generation, and increasing cache size by up to 50 percent. These new Intel Core 2 Quad processors deliver even more performance without using more energy.
Features
* Quad-Core Processor
Provides four complete execution cores in a single processor with up to 12 MB of L2 cache and up to a 1333 MHz Front Side Bus. Four dedicated, physical threads help operating systems and applications deliver additional performance, so end users can experience better multi-tasking and multi-threaded performance across many types of applications and work loads.
* Intel® Wide Dynamic Execution
Improves execution speed and efficiency, delivering more instructions per clock cycle. Each of the four cores can complete up to four full instructions simultaneously.
* Intel® Smart Memory Access
Optimizes the use of the data bandwidth from the memory subsystem to accelerate out-of-order execution. A newly designed prediction mechanism reduces the time in-flight instructions have to wait for data. New pre-fetch algorithms move data from system memory into fast L2 cache in advance of execution. These functions keep the pipeline full, improving instruction throughput and performance. 45nm versions further improve this feature, with more efficient methods of loading and storing data in main memory.
* Intel® Advanced Smart Cache
Provides shared level 2 cache across each pair of cores that can be dynamically allocated to each processor core, within the pair, based on workload. This efficient implementation increases the probability that each core within the pair can access data from fast L2 cache, significantly reducing latency to frequently used data and improving performance.
* Intel® Advanced Digital Media Boost
Accelerates the execution of Streaming SIMD Extension (SSE) instructions to significantly improve the performance on a broad range of applications, including video, audio, and image processing, and multimedia, encryption, financial, engineering, and scientific applications. The 128-bit SSE instructions are now issued at a throughput rate of one per clock cycle effectively doubling their speed of execution on a per clock basis over previous generation processors. 45nm versions include a new Super Shuffle Engine, which improves existing SSE instructions while enabling significant gains on the latest SSE4 instruction set. SSE4-optimized applications, such as video editing and encoding in high-definition resolution, will see additional performance improvements.
* Intel® Virtualization Technology (Intel® VT)
Allows one hardware platform to function as multiple “virtual” platforms. Intel® VT improves manageability, limiting downtime and maintaining worker productivity by isolating computing activities into separate partitions.
* Intel® 64 Architecture
Allows the processor to access larger amounts of memory. With appropriate 64-bit hardware and software, platforms based on an Intel processor supporting Intel® 64 architecture can allow the use of extended virtual and physical memory.
* Execute Disable Bit
Provides extended virus defense when deployed with a supported operating system. Memory can be marked as executable or non-executable, allowing the processor to raise an error to the operating system if malicious code attempts to run in non-executable memory. This can prevent the code from infecting the system.
* Digital Thermal Sensor (DTS)
Provides for more efficient processor and platform thermal control improving system acoustics. The DTS continuously measures the temperature at each processing core. The ability to continuously measure and detect variations in processor temperature enables system fans to spin only as fast as needed to cool the system. The combination of these technologies can result in significantly lower noise emissions from the PC.
* Intel Designed Thermal Solution for Boxed Processors
Includes a 4-pin connector for fan speed control to help minimize the acoustic noise levels generated from running the fan at higher speeds for thermal performance6. Fan speed control technology is based on actual CPU temperature and power usage.
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 cache and up to 1333 MHz Front Side Bus, more intensive entertainment and more multitasking can bring a multimedia powerhouse to your home.
The latest versions built on Intel's 45nm manufacturing technology take these benefits to a whole new level. This new technology uses hafnium-infused Hi-k transistors, enabling even more processor performance by doubling the transistor density, improving efficiency and speed relative to the previous generation, and increasing cache size by up to 50 percent. These new Intel Core 2 Quad processors deliver even more performance without using more energy.
Features
* Quad-Core Processor
Provides four complete execution cores in a single processor with up to 12 MB of L2 cache and up to a 1333 MHz Front Side Bus. Four dedicated, physical threads help operating systems and applications deliver additional performance, so end users can experience better multi-tasking and multi-threaded performance across many types of applications and work loads.
* Intel® Wide Dynamic Execution
Improves execution speed and efficiency, delivering more instructions per clock cycle. Each of the four cores can complete up to four full instructions simultaneously.
* Intel® Smart Memory Access
Optimizes the use of the data bandwidth from the memory subsystem to accelerate out-of-order execution. A newly designed prediction mechanism reduces the time in-flight instructions have to wait for data. New pre-fetch algorithms move data from system memory into fast L2 cache in advance of execution. These functions keep the pipeline full, improving instruction throughput and performance. 45nm versions further improve this feature, with more efficient methods of loading and storing data in main memory.
* Intel® Advanced Smart Cache
Provides shared level 2 cache across each pair of cores that can be dynamically allocated to each processor core, within the pair, based on workload. This efficient implementation increases the probability that each core within the pair can access data from fast L2 cache, significantly reducing latency to frequently used data and improving performance.
* Intel® Advanced Digital Media Boost
Accelerates the execution of Streaming SIMD Extension (SSE) instructions to significantly improve the performance on a broad range of applications, including video, audio, and image processing, and multimedia, encryption, financial, engineering, and scientific applications. The 128-bit SSE instructions are now issued at a throughput rate of one per clock cycle effectively doubling their speed of execution on a per clock basis over previous generation processors. 45nm versions include a new Super Shuffle Engine, which improves existing SSE instructions while enabling significant gains on the latest SSE4 instruction set. SSE4-optimized applications, such as video editing and encoding in high-definition resolution, will see additional performance improvements.
* Intel® Virtualization Technology (Intel® VT)
Allows one hardware platform to function as multiple “virtual” platforms. Intel® VT improves manageability, limiting downtime and maintaining worker productivity by isolating computing activities into separate partitions.
* Intel® 64 Architecture
Allows the processor to access larger amounts of memory. With appropriate 64-bit hardware and software, platforms based on an Intel processor supporting Intel® 64 architecture can allow the use of extended virtual and physical memory.
* Execute Disable Bit
Provides extended virus defense when deployed with a supported operating system. Memory can be marked as executable or non-executable, allowing the processor to raise an error to the operating system if malicious code attempts to run in non-executable memory. This can prevent the code from infecting the system.
* Digital Thermal Sensor (DTS)
Provides for more efficient processor and platform thermal control improving system acoustics. The DTS continuously measures the temperature at each processing core. The ability to continuously measure and detect variations in processor temperature enables system fans to spin only as fast as needed to cool the system. The combination of these technologies can result in significantly lower noise emissions from the PC.
* Intel Designed Thermal Solution for Boxed Processors
Includes a 4-pin connector for fan speed control to help minimize the acoustic noise levels generated from running the fan at higher speeds for thermal performance6. Fan speed control technology is based on actual CPU temperature and power usage.
Intel Core 2 Quad Q8200 Processor EU80580PJ0534MN
Intel Core 2 Quad Q8200 Processor EU80580PJ0534MN
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 multi-tasking 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 multi-threading.
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 cache and up to 1333 MHz Front Side Bus, more intensive entertainment and more multitasking can bring a multimedia powerhouse to your home
# Intel® Advanced Smart Cache
Provides shared level 2 cache across each pair of cores that can be dynamically allocated to each processor core, within the pair, based on workload. This efficient implementation increases the probability that each core within the pair can access data from fast L2 cache, significantly reducing latency to frequently used data and improving performance.
# Intel® Advanced Digital Media Boost
Accelerates the execution of Streaming SIMD Extension (SSE) instructions to significantly improve the performance on a broad range of applications, including video, audio, and image processing, and multimedia, encryption, financial, engineering, and scientific applications. The 128-bit SSE instructions are now issued at a throughput rate of one per clock cycle effectively doubling their speed of execution on a per clock basis over previous generation processors. 45nm versions include a new Super Shuffle Engine, which improves existing SSE instructions while enabling significant gains on the latest SSE4 instruction set. SSE4-optimized applications, such as video editing and encoding in high-definition resolution, will see additional performance improvements.
# Intel® Virtualization Technology (Intel® VT)
Allows one hardware platform to function as multiple “virtual” platforms. Intel® VT improves manageability, limiting downtime and maintaining worker productivity by isolating computing activities into separate partitions.
# Digital Thermal Sensor (DTS)
Provides for more efficient processor and platform thermal control improving system acoustics. The DTS continuously measures the temperature at each processing core. The ability to continuously measure and detect variations in processor temperature enables system fans to spin only as fast as needed to cool the system. The combination of these technologies can result in significantly lower noise emissions from the PC.
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 multi-tasking 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 multi-threading.
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 cache and up to 1333 MHz Front Side Bus, more intensive entertainment and more multitasking can bring a multimedia powerhouse to your home
# Intel® Advanced Smart Cache
Provides shared level 2 cache across each pair of cores that can be dynamically allocated to each processor core, within the pair, based on workload. This efficient implementation increases the probability that each core within the pair can access data from fast L2 cache, significantly reducing latency to frequently used data and improving performance.
# Intel® Advanced Digital Media Boost
Accelerates the execution of Streaming SIMD Extension (SSE) instructions to significantly improve the performance on a broad range of applications, including video, audio, and image processing, and multimedia, encryption, financial, engineering, and scientific applications. The 128-bit SSE instructions are now issued at a throughput rate of one per clock cycle effectively doubling their speed of execution on a per clock basis over previous generation processors. 45nm versions include a new Super Shuffle Engine, which improves existing SSE instructions while enabling significant gains on the latest SSE4 instruction set. SSE4-optimized applications, such as video editing and encoding in high-definition resolution, will see additional performance improvements.
# Intel® Virtualization Technology (Intel® VT)
Allows one hardware platform to function as multiple “virtual” platforms. Intel® VT improves manageability, limiting downtime and maintaining worker productivity by isolating computing activities into separate partitions.
# Digital Thermal Sensor (DTS)
Provides for more efficient processor and platform thermal control improving system acoustics. The DTS continuously measures the temperature at each processing core. The ability to continuously measure and detect variations in processor temperature enables system fans to spin only as fast as needed to cool the system. The combination of these technologies can result in significantly lower noise emissions from the PC.
Intel Core 2 Quad Q6700 Processor BX80562Q670
The High End Just Got Higher
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 8MB of shared L2 cache and up to 1066 MHz Front Side Bus, more intensive entertainment and more multi-tasking can bring a multimedia powerhouse to your house
Features
* Quad-Core Processor
Provides four complete execution cores in a single Processor with 8 MB of L2 cache and a 1066 MHz Front Side Bus. Four dedicated, physical threads help operating systems and applications deliver additional performance, so end users can experience better multi-tasking and multi-threaded performance across many types of applications and work loads.
* Intel® Wide Dynamic Execution
Improves execution speed and efficiency, delivering more instructions per clock cycle. Each of the four cores can complete up to four full instructions simultaneously.
* Intel® Advanced Smart Cache
Shared Level 2 cache across each pair of cores that can be dynamically allocated to each processor core, within the pair, based on workload. This efficient implementation increases .
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 8MB of shared L2 cache and up to 1066 MHz Front Side Bus, more intensive entertainment and more multi-tasking can bring a multimedia powerhouse to your house
Features
* Quad-Core Processor
Provides four complete execution cores in a single Processor with 8 MB of L2 cache and a 1066 MHz Front Side Bus. Four dedicated, physical threads help operating systems and applications deliver additional performance, so end users can experience better multi-tasking and multi-threaded performance across many types of applications and work loads.
* Intel® Wide Dynamic Execution
Improves execution speed and efficiency, delivering more instructions per clock cycle. Each of the four cores can complete up to four full instructions simultaneously.
* Intel® Advanced Smart Cache
Shared Level 2 cache across each pair of cores that can be dynamically allocated to each processor core, within the pair, based on workload. This efficient implementation increases .
Intel Core 2 Quad Q9550 Processor BX80569Q9550
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 multi-tasking environments and makes the most of highly threaded applications. Whether you're creating multimedia, annihilating your gaming enemies, or running computer-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 multi-threading.
Features
* Quad-Core Processor
Provides four complete execution cores in a single processor with up to 12 MB of L2 cache and up to a 1333 MHz Front Side Bus. Four dedicated, physical threads help operating systems and applications deliver additional performance, so end users can experience better multi-tasking and multi-threaded performance across many types of applications and work loads.
* Intel® Wide Dynamic Execution
Improves execution speed and efficiency, delivering more instructions per clock cycle. Each of the four cores can complete up to four full instructions simultaneously.
* Intel® Smart Memory Access
Optimizes the use of the data bandwidth from the memory subsystem to accelerate out-of-order execution. A newly designed prediction mechanism reduces the time in-flight instructions have to wait for data. New pre-fetch algorithms move data from system memory into fast L2 cache in advance of execution. These functions keep the pipeline full, improving instruction throughput and performance. 45nm versions further improve this feature, with more efficient methods of loading and storing data in main memory.
* Intel® Advanced Smart Cache
Provides shared level 2 cache across each pair of cores that can be dynamically allocated to each processor core, within the pair, based on workload. This efficient implementation increases the probability that each core within the pair can access data from fast L2 cache, significantly reducing latency to frequently used data and improving performance.
* Intel® Advanced Digital Media Boost
Accelerates the execution of Streaming SIMD Extension (SSE) instructions to significantly improve the performance on a broad range of applications, including video, audio, and image processing, and multimedia, encryption, financial, engineering, and scientific applications. The 128-bit SSE instructions are now issued at a throughput rate of one per clock cycle effectively doubling their speed of execution on a per clock basis over previous generation processors. 45nm versions include a new Super Shuffle Engine, which improves existing SSE instructions while enabling significant gains on the latest SSE4 instruction set. SSE4-optimized applications, such as video editing and encoding in high-definition resolution, will see additional performance improvements.
* Intel® Virtualization Technology (Intel® VT)
Allows one hardware platform to function as multiple “virtual” platforms. Intel® VT improves manageability, limiting downtime and maintaining worker productivity by isolating computing activities into separate partitions.
* Intel® 64 Architecture
Allows the processor to access larger amounts of memory. With appropriate 64-bit hardware and software, platforms based on an Intel processor supporting Intel® 64 architecture can allow the use of extended virtual and physical memory.
* Execute Disable Bit
Provides extended virus defense when deployed with a supported operating system. Memory can be marked as executable or non-executable, allowing the processor to raise an error to the operating system if malicious code attempts to run in non-executable memory. This can prevent the code from infecting the system.
* Digital Thermal Sensor (DTS)
Provides for more efficient processor and platform thermal control improving system acoustics. The DTS continuously measures the temperature at each processing core. The ability to continuously measure and detect variations in processor temperature enables system fans to spin only as fast as needed to cool the system. The combination of these technologies can result in significantly lower noise emissions from the PC.
* Intel Designed Thermal Solution for Boxed Processors
Includes a 4-pin connector for fan speed control to help minimize the acoustic noise levels generated from running the fan at higher speeds for thermal performance6. Fan speed control technology is based on actual CPU temperature and power usage.
Features
* Quad-Core Processor
Provides four complete execution cores in a single processor with up to 12 MB of L2 cache and up to a 1333 MHz Front Side Bus. Four dedicated, physical threads help operating systems and applications deliver additional performance, so end users can experience better multi-tasking and multi-threaded performance across many types of applications and work loads.
* Intel® Wide Dynamic Execution
Improves execution speed and efficiency, delivering more instructions per clock cycle. Each of the four cores can complete up to four full instructions simultaneously.
* Intel® Smart Memory Access
Optimizes the use of the data bandwidth from the memory subsystem to accelerate out-of-order execution. A newly designed prediction mechanism reduces the time in-flight instructions have to wait for data. New pre-fetch algorithms move data from system memory into fast L2 cache in advance of execution. These functions keep the pipeline full, improving instruction throughput and performance. 45nm versions further improve this feature, with more efficient methods of loading and storing data in main memory.
* Intel® Advanced Smart Cache
Provides shared level 2 cache across each pair of cores that can be dynamically allocated to each processor core, within the pair, based on workload. This efficient implementation increases the probability that each core within the pair can access data from fast L2 cache, significantly reducing latency to frequently used data and improving performance.
* Intel® Advanced Digital Media Boost
Accelerates the execution of Streaming SIMD Extension (SSE) instructions to significantly improve the performance on a broad range of applications, including video, audio, and image processing, and multimedia, encryption, financial, engineering, and scientific applications. The 128-bit SSE instructions are now issued at a throughput rate of one per clock cycle effectively doubling their speed of execution on a per clock basis over previous generation processors. 45nm versions include a new Super Shuffle Engine, which improves existing SSE instructions while enabling significant gains on the latest SSE4 instruction set. SSE4-optimized applications, such as video editing and encoding in high-definition resolution, will see additional performance improvements.
* Intel® Virtualization Technology (Intel® VT)
Allows one hardware platform to function as multiple “virtual” platforms. Intel® VT improves manageability, limiting downtime and maintaining worker productivity by isolating computing activities into separate partitions.
* Intel® 64 Architecture
Allows the processor to access larger amounts of memory. With appropriate 64-bit hardware and software, platforms based on an Intel processor supporting Intel® 64 architecture can allow the use of extended virtual and physical memory.
* Execute Disable Bit
Provides extended virus defense when deployed with a supported operating system. Memory can be marked as executable or non-executable, allowing the processor to raise an error to the operating system if malicious code attempts to run in non-executable memory. This can prevent the code from infecting the system.
* Digital Thermal Sensor (DTS)
Provides for more efficient processor and platform thermal control improving system acoustics. The DTS continuously measures the temperature at each processing core. The ability to continuously measure and detect variations in processor temperature enables system fans to spin only as fast as needed to cool the system. The combination of these technologies can result in significantly lower noise emissions from the PC.
* Intel Designed Thermal Solution for Boxed Processors
Includes a 4-pin connector for fan speed control to help minimize the acoustic noise levels generated from running the fan at higher speeds for thermal performance6. Fan speed control technology is based on actual CPU temperature and power usage.
Intel Core 2 Duo E6750 Processor BX80557E6750
When launched later this year, the Intel® Core™2 Duo processor will provide enhanced performance and energy-efficiency in mobile applications while bringing for the first time the benefits of energy-efficient performance to mainstream desktop computing. It will be Intel's highest performing desktop processor ever and the new first choice of gamers and multimedia professionals worldwide.
As with the Intel® Pentium® processor brand, use of the number "2" signals the arrival of the next generation of technology to the Intel® Core™ processor line. In order to be consistent with our current Intel Core processor naming, we are continuing to use "Duo" to creatively and effectively indicate Intel® dual-core technology.
* Intel® Intelligent Power Capability
Intel® Intelligent Power Capability is a set of capabilities designed to reduce power consumption and design requirements. This feature manages the runtime power consumption of all the processor's execution cores. The result is excellent energy optimization enabling the Intel Core microarchitecture to deliver more energy-efficient performance for desktop PCs, mobile PCs and servers.
* Intel® Advanced Smart Cache
The Intel® Advanced Smart Cache is a multi-core optimized cache that significantly reduces latency to frequently used data, thus improving performance and efficiency by increasing the probability that each execution core of a dual-core processor can access data from a higher-performance, more efficient cache subsystem.
* Intel® Smart Memory Access
Intel® Smart Memory Access improves system performance by optimizing the use of the available data bandwidth from the memory subsystem and hiding the latency of memory accesses.
* Intel® Advanced Digital Media Boost
The Intel® Advanced Digital Media Boost is a feature that significantly improves performance when executing Streaming SIMD Extension (SSE/SSE2/SSE3) instructions.
REVIEW BY: Highskul Reviewed
I didn't purchase this from here, but this is a freaking AWESOME processor. After using the stock cooler for only 2 months i went with a Zalman 9700. I have this overclocked to 3.2, but i can run it at 3.4ghz without any problems. VERY COOL processor! With the cooler i can hit 41*C at full load (that's having multiple conversions at one time running :P). With the right software i can convert a 25 minute video to an iPod in about 95 seconds and still maintain great video quality.
As with the Intel® Pentium® processor brand, use of the number "2" signals the arrival of the next generation of technology to the Intel® Core™ processor line. In order to be consistent with our current Intel Core processor naming, we are continuing to use "Duo" to creatively and effectively indicate Intel® dual-core technology.
* Intel® Intelligent Power Capability
Intel® Intelligent Power Capability is a set of capabilities designed to reduce power consumption and design requirements. This feature manages the runtime power consumption of all the processor's execution cores. The result is excellent energy optimization enabling the Intel Core microarchitecture to deliver more energy-efficient performance for desktop PCs, mobile PCs and servers.
* Intel® Advanced Smart Cache
The Intel® Advanced Smart Cache is a multi-core optimized cache that significantly reduces latency to frequently used data, thus improving performance and efficiency by increasing the probability that each execution core of a dual-core processor can access data from a higher-performance, more efficient cache subsystem.
* Intel® Smart Memory Access
Intel® Smart Memory Access improves system performance by optimizing the use of the available data bandwidth from the memory subsystem and hiding the latency of memory accesses.
* Intel® Advanced Digital Media Boost
The Intel® Advanced Digital Media Boost is a feature that significantly improves performance when executing Streaming SIMD Extension (SSE/SSE2/SSE3) instructions.
REVIEW BY: Highskul Reviewed
I didn't purchase this from here, but this is a freaking AWESOME processor. After using the stock cooler for only 2 months i went with a Zalman 9700. I have this overclocked to 3.2, but i can run it at 3.4ghz without any problems. VERY COOL processor! With the cooler i can hit 41*C at full load (that's having multiple conversions at one time running :P). With the right software i can convert a 25 minute video to an iPod in about 95 seconds and still maintain great video quality.
Intel Xeon 5130 Processor BX805565130A
The Dual-Core Intel® Xeon® processor 5100 series, Intel’s newest dual-core processor for dual processor (DP) servers and workstations delivers a new level of energy-efficient performance from the innovative Intel® Core™ microarchitecture, optimized for low-power, dual-core, 64-bit computing. The Dual-Core Intel Xeon processor 5100 series is ideal for intense computing environments, 32-bit and 64-bit business-critical applications and high-end workstations. Combined with the Intel® 5000 chipset family and Fully Buffered DIMM (FBDIMM) technology, the new Dual-Core Intel Xeon processor 5100 series-based platforms are expected to deliver up to 3 times the performance and 3.5 times the performance/watt of previous-generation single-core Intel® Xeon® processors. The new Dual-Core Intel Xeon processor 5100 series-based platforms are expected to deliver up to 2.25 times the performance and 2.35 times the performance/watt of previous-generation dual-core Intel Xeon processors.
The Dual-Core Intel Xeon processor 5100 series is compatible with Intel® 5000P, 5000V and 5000X series of chipsets. Server boards based on these chipsets are optimized for dual core with advanced platform features of Dual Independent Bus and Fully Buffered DIMM memory technology offering up to 4X and 3X available bandwidth of current generation platforms.
The Dual-Core Intel Xeon processor 5100 series is compatible with Intel® 5000P, 5000V and 5000X series of chipsets. Server boards based on these chipsets are optimized for dual core with advanced platform features of Dual Independent Bus and Fully Buffered DIMM memory technology offering up to 4X and 3X available bandwidth of current generation platforms.
Intel Core 2 Duo E7300 Processor BX80571E7300
The Intel® Core™2 Duo processor was developed to meet the insatiable demand for increased performance from PC users running multiple intense software applications simultaneously. In the office, PC usage has changed from data entry and word processing to e-Commerce, online collaboration, and an ever-increasing need for continual security and virus protection. In the home, interests have shifted from low-bandwidth photos and Internet surfing to downloading and viewing high-definition videos, as well as advanced photo and video editing.
Intel’s new 45nm manufacturing technology, with hafnium-infused Hi-k transistors, enables even more processor performance by doubling the transistor density, improving efficiency and speed relative to the previous generation, and increasing cache size by up Intel Core 2 Duo processors deliver without using more energy.
# Intel® Wide Dynamic Execution
Improves execution speed and efficiency, delivering more instructions per clock cycle. Each core can complete up to four full instructions simultaneously.
# Intel® Smart Memory Access
Optimizes the use of the data bandwidth from the memory subsystem to accelerate out-of-order execution. A newly designed prediction mechanism reduces the time in-flight instructions have to wait for data. New pre-fetch algorithms move data from system memory into fast L2 cache in advance of execution. These functions keep the pipeline full, improving instruction throughput and performance. 45nm versions further improve this feature, with more efficient methods of loading and storing data in main memory.
# Intel® Advanced Smart Cache
The shared L2 cache is dynamically allocated to each processor core based on workload. This efficient, dual-core optimized implementation increases the probability that each core can access data from fast L2 cache, significantly reducing latency to frequently used data and improving performance.
# Intel® Advanced Digital Media Boost
Accelerates the execution of Streaming SIMD Extension (SSE) instructions to significantly improve the performance on a broad range of applications, including video, audio, image processing and multimedia, encryption, financial, engineering and scientific applications. The 128-bit SSE instructions are now issued at a throughput rate of one per clock cycle effectively doubling their speed of execution on a per clock basis over previous generation processors. 45nm versions include a new Super SHuffle Engine, which improves existing SSE instructions while enabling significant gains on the latest SSE4 instruction set. SSE4-optimized applications, such as video editing and encoding in high-definition resolution, will see additional performance improvements.
# Intel® Advanced Digital
Accelerates the execution of Streaming SIMD Extension (SSE) instructions to significantly improve the performance on a broad range of applications, including video, audio, and image processing, and multimedia, encryption, financial, engineering, and scientific applications. The 128-bit SSE instructions are now issued at a throughput rate of one per clock cycle effectively doubling their speed of execution on a per clock basis over previous generation processors. 45nm versions include a new Super Shuffle Engine, which improves existing SSE instructions while enabling significant gains on the latest SSE4 instruction set. SSE4-optimized applications, such as video editing and encoding in high-definition resolution, will see additional performance improvements.
# Intel® Virtualization Technology (Intel® VT)
Intel® VT allows one hardware platform to function as multiple “virtual” platforms. For businesses, Intel VT offers improved manageability, limiting downtime and maintaining worker productivity by isolating computing activities into separate partitions
# Intel® Trusted Execution Technology (Intel® TXT)
Intel® TXT provides hardware-based mechanisms to help protect against software-based attacks and help protect the confidentiality and integrity of data stored or created on the system. It does this by enabling a trusted environment where applications can run within their own space, protected from all other software on the system.
# Intel® 64 Architecture
Enables the processor to access larger amounts of memory. With appropriate 64-bit supporting hardware and software, platforms based on an Intel processor supporting Intel 64 architecture can allow the use of extended virtual and physical memory.
Intel’s new 45nm manufacturing technology, with hafnium-infused Hi-k transistors, enables even more processor performance by doubling the transistor density, improving efficiency and speed relative to the previous generation, and increasing cache size by up Intel Core 2 Duo processors deliver without using more energy.
# Intel® Wide Dynamic Execution
Improves execution speed and efficiency, delivering more instructions per clock cycle. Each core can complete up to four full instructions simultaneously.
# Intel® Smart Memory Access
Optimizes the use of the data bandwidth from the memory subsystem to accelerate out-of-order execution. A newly designed prediction mechanism reduces the time in-flight instructions have to wait for data. New pre-fetch algorithms move data from system memory into fast L2 cache in advance of execution. These functions keep the pipeline full, improving instruction throughput and performance. 45nm versions further improve this feature, with more efficient methods of loading and storing data in main memory.
# Intel® Advanced Smart Cache
The shared L2 cache is dynamically allocated to each processor core based on workload. This efficient, dual-core optimized implementation increases the probability that each core can access data from fast L2 cache, significantly reducing latency to frequently used data and improving performance.
# Intel® Advanced Digital Media Boost
Accelerates the execution of Streaming SIMD Extension (SSE) instructions to significantly improve the performance on a broad range of applications, including video, audio, image processing and multimedia, encryption, financial, engineering and scientific applications. The 128-bit SSE instructions are now issued at a throughput rate of one per clock cycle effectively doubling their speed of execution on a per clock basis over previous generation processors. 45nm versions include a new Super SHuffle Engine, which improves existing SSE instructions while enabling significant gains on the latest SSE4 instruction set. SSE4-optimized applications, such as video editing and encoding in high-definition resolution, will see additional performance improvements.
# Intel® Advanced Digital
Accelerates the execution of Streaming SIMD Extension (SSE) instructions to significantly improve the performance on a broad range of applications, including video, audio, and image processing, and multimedia, encryption, financial, engineering, and scientific applications. The 128-bit SSE instructions are now issued at a throughput rate of one per clock cycle effectively doubling their speed of execution on a per clock basis over previous generation processors. 45nm versions include a new Super Shuffle Engine, which improves existing SSE instructions while enabling significant gains on the latest SSE4 instruction set. SSE4-optimized applications, such as video editing and encoding in high-definition resolution, will see additional performance improvements.
# Intel® Virtualization Technology (Intel® VT)
Intel® VT allows one hardware platform to function as multiple “virtual” platforms. For businesses, Intel VT offers improved manageability, limiting downtime and maintaining worker productivity by isolating computing activities into separate partitions
# Intel® Trusted Execution Technology (Intel® TXT)
Intel® TXT provides hardware-based mechanisms to help protect against software-based attacks and help protect the confidentiality and integrity of data stored or created on the system. It does this by enabling a trusted environment where applications can run within their own space, protected from all other software on the system.
# Intel® 64 Architecture
Enables the processor to access larger amounts of memory. With appropriate 64-bit supporting hardware and software, platforms based on an Intel processor supporting Intel 64 architecture can allow the use of extended virtual and physical memory.
Intel Xeon E5310 Processor BX80563E5310A
The Quad-Core Intel® Xeon® processor 5300 series is the industry's first quad-core processor for dual processor (DP) servers and workstations. Built on Intel® Core™ microarchitecture, these processors deliver industry leading performance and virtualization, and offer new levels of energy efficiency to help reduce cooling and density challenges.
The Quad-Core Intel Xeon processor 5300 series is Intel's premier solution for the growing computing and data needs of many business-critical applications, and provides the most headroom (threads and performance) for virtualized server environments of any dual processor standard high volume server platform. Combined with the Intel® 5000 chipset family and Fully Buffered DIMM (FBDIMM) memory technology, the new Quad-Core Intel Xeon processor 5300 series-based platforms are expected to deliver breakthrough performance with better power efficiency, delivering up to 1.5 times the performance compared to leading Dual-Core Intel® Xeon® processor 5100 series in the same power envelope and up to 2.5 times the performance compared to the best published results of AMD Opteron Model 2220.
# Intel® Core™ Microarchitecture
Better performance on multiple application types and user environments at a substantially reduce power envelope.
# 8 Cores/8 Threads
Increases support for more simultaneous processes
# 80W-120W SKUs
Increased Performance/Watt helps improve data center density and power/thermal operating costs.
# 8 MB Shared L2 Cache
Increases performance by reducing the number of system memory calls from applications.
# Up to 1333 MHz System Bus
Faster system bus speeds for increased throughput and performance.
# Intel® Virtualization Technology
New processor hardware enhancements that support software-based virtualization, enabling migration of more environments — including 64-bit OSs and applications — to virtual environments.
# Intel® 64
Flexibility for 64-bit and 32-bit applications and operating systems.
# Enhanced Intel® Speedstep™ Technology
Helps reduce average system power consumption and potentially improves system acoustics
The Quad-Core Intel Xeon processor 5300 series is Intel's premier solution for the growing computing and data needs of many business-critical applications, and provides the most headroom (threads and performance) for virtualized server environments of any dual processor standard high volume server platform. Combined with the Intel® 5000 chipset family and Fully Buffered DIMM (FBDIMM) memory technology, the new Quad-Core Intel Xeon processor 5300 series-based platforms are expected to deliver breakthrough performance with better power efficiency, delivering up to 1.5 times the performance compared to leading Dual-Core Intel® Xeon® processor 5100 series in the same power envelope and up to 2.5 times the performance compared to the best published results of AMD Opteron Model 2220.
# Intel® Core™ Microarchitecture
Better performance on multiple application types and user environments at a substantially reduce power envelope.
# 8 Cores/8 Threads
Increases support for more simultaneous processes
# 80W-120W SKUs
Increased Performance/Watt helps improve data center density and power/thermal operating costs.
# 8 MB Shared L2 Cache
Increases performance by reducing the number of system memory calls from applications.
# Up to 1333 MHz System Bus
Faster system bus speeds for increased throughput and performance.
# Intel® Virtualization Technology
New processor hardware enhancements that support software-based virtualization, enabling migration of more environments — including 64-bit OSs and applications — to virtual environments.
# Intel® 64
Flexibility for 64-bit and 32-bit applications and operating systems.
# Enhanced Intel® Speedstep™ Technology
Helps reduce average system power consumption and potentially improves system acoustics
Intel Pentium Dual Core E2180 Processor BX80557E2180
Intel Pentium Dual Core E2180 Processor BX80557E2180
The new Intel Pentium Dual Core is a budget dual-core chip, without sacrificing speed and quality. Intel's newest addition to the Intel® Pentium® processor family with dual-core processor technology that delivers great performance, low power enhancements, and multitasking for everyday computing. It's built on Intel’s Core microarchitecture (Conroe), the next generation 65 nanometer process technology. It has a L2 Cache of 1MB and runs on a quad-pumped system bus, providing better performance, especially for gaming purposes. At this price, top gaming performance has never been so affordable!
Features
* A Vibrant Media Experience
The Intel Pentium dual-core processor delivers enhanced performance for today's demanding applications such as CAD tools, 3D and 2D modeling, video editing, digital music, digital photography and gaming.
* Smarter, More Efficient Designs
Intel® Smart Cache enables smarter, more efficient cache and bus design for enhanced performance, responsiveness and power savings.
The new Intel Pentium Dual Core is a budget dual-core chip, without sacrificing speed and quality. Intel's newest addition to the Intel® Pentium® processor family with dual-core processor technology that delivers great performance, low power enhancements, and multitasking for everyday computing. It's built on Intel’s Core microarchitecture (Conroe), the next generation 65 nanometer process technology. It has a L2 Cache of 1MB and runs on a quad-pumped system bus, providing better performance, especially for gaming purposes. At this price, top gaming performance has never been so affordable!
Features
* A Vibrant Media Experience
The Intel Pentium dual-core processor delivers enhanced performance for today's demanding applications such as CAD tools, 3D and 2D modeling, video editing, digital music, digital photography and gaming.
* Smarter, More Efficient Designs
Intel® Smart Cache enables smarter, more efficient cache and bus design for enhanced performance, responsiveness and power savings.
Intel Xeon E5345 Processor BX80563E5345A
The Quad-Core Intel Xeon processor 5300 series is Intel's premier solution for the growing computing and data needs of many business-critical applications, and provides the most headroom (threads and performance) for virtualized server environments of any dual processor standard high volume server platform. Combined with the Intel® 5000 chipset family and Fully Buffered DIMM (FBDIMM) memory technology, the new Quad-Core Intel Xeon processor 5300 series-based platforms are expected to deliver breakthrough performance with better power efficiency, delivering up to 1.5 times the performance compared to leading Dual-Core Intel® Xeon® processor 5100 series in the same power envelope and up to 2.5 times the performance compared to the best published results of AMD Opteron Model 2220.
The Quad-Core Intel Xeon processor 5300 series is compatible with Intel® 5000P, 5000V and 5000X series of chipsets. Server boards based on these chipsets are optimized for quad core with advanced platform features of Dual Independent Bus and Fully Buffered DIMM memory technology offering up to 4X available bandwidth of current generation platforms. Improved I/O performance is possible with PCI Express and the option of Intel I/O Acceleration Technology.
# Intel® Core™ Microarchitecture
Better performance on multiple application types and user environments at a substantially reduce power envelope.
# 8 Cores/8 Threads
Increases support for more simultaneous processes
# 80W-120W SKUs
Increased Performance/Watt helps improve data center density and power/thermal operating costs.
# 8 MB Shared L2 Cache
Increases performance by reducing the number of system memory calls from applications.
# Up to 1333 MHz System Bus
Faster system bus speeds for increased throughput and performance.
# Intel® Virtualization Technology
New processor hardware enhancements that support software-based virtualization, enabling migration of more environments — including 64-bit OSs and applications — to virtual environments.
# Intel® 64
Flexibility for 64-bit and 32-bit applications and operating systems.
# Enhanced Intel® Speedstep™ Technology
Helps reduce average system power consumption and potentially improves system acoustics.
The Quad-Core Intel Xeon processor 5300 series is compatible with Intel® 5000P, 5000V and 5000X series of chipsets. Server boards based on these chipsets are optimized for quad core with advanced platform features of Dual Independent Bus and Fully Buffered DIMM memory technology offering up to 4X available bandwidth of current generation platforms. Improved I/O performance is possible with PCI Express and the option of Intel I/O Acceleration Technology.
# Intel® Core™ Microarchitecture
Better performance on multiple application types and user environments at a substantially reduce power envelope.
# 8 Cores/8 Threads
Increases support for more simultaneous processes
# 80W-120W SKUs
Increased Performance/Watt helps improve data center density and power/thermal operating costs.
# 8 MB Shared L2 Cache
Increases performance by reducing the number of system memory calls from applications.
# Up to 1333 MHz System Bus
Faster system bus speeds for increased throughput and performance.
# Intel® Virtualization Technology
New processor hardware enhancements that support software-based virtualization, enabling migration of more environments — including 64-bit OSs and applications — to virtual environments.
# Intel® 64
Flexibility for 64-bit and 32-bit applications and operating systems.
# Enhanced Intel® Speedstep™ Technology
Helps reduce average system power consumption and potentially improves system acoustics.
Intel Pentium Dual Core E2200 Processor
Intel Pentium Dual Core E2200 Processor HH80557PG0491M
Go beyond everyday computing with the Intel® Pentium® dual-core desktop processor. An increasing number of software applications are now designed for dual-core processors enabling the user to be more creative and productive in the home or the office. The need for security and virus protection often means running more than one application at a time and the Pentium dual-core processor has the power to run them simultaneously. Based on a new energy-efficient microarchitecture, the Pentium dual-core desktop processor delivers superior energy-efficient dual-core performance.
Energy Efficiency
Intel® Intelligent Power Capability, a feature of the Pentium dual-core processor, optimizes energy usage in the processor cores by turning computing functions on only when needed. This improves performance as well as the processor’s energy efficiency by operating at lower frequencies that require less power to run. These more energy-efficient processors support smaller and quieter desktop PCs.
Platform Support
When combined with an Intel® Express Chipset based board, you enjoy exceptional audio quality and a smooth visual experience with integrated Intel® High Definition Audio and Intel® Graphics Media Acceleration (GMA.) The flexible platform options bring an array of new capabilities like Voice over Internet Protocol (VoIP) or the colorful world of digital photography.
Features
* Intel® Dual-Core Processing
Runs two independent processor cores in one physical package at the same frequency. Features 1 MB of shared L2 cache and 800 MHz Front Side Bus.
* Intel® Wide Dynamic Execution
Improves execution speed and ef.ciency, delivering more instructions per clock cycle. Each core can complete up to four full instructions simultaneously.
* Intel® Smart Memory Access
Optimizes the use of the data bandwidth from the memory subsystem to accelerate out-of-order execution. A newly designed prediction mechanism reduces the time in-.ight
instructions have to wait for data. New pre-fetch algorithms move data from system memory into fast L2 cache in advance of execution. These functions keep the pipeline full, improving instruction throughput and performance.
* Intel® Advanced Smart Cache
The shared L2 cache is dynamically allocated to each processor core, based on workload. This ef.cient, dual-core optimized implementation increases the probability that each core can access data from the fast L2 cache, signi.cantly reducing latency to frequently used data and improving performance.
Go beyond everyday computing with the Intel® Pentium® dual-core desktop processor. An increasing number of software applications are now designed for dual-core processors enabling the user to be more creative and productive in the home or the office. The need for security and virus protection often means running more than one application at a time and the Pentium dual-core processor has the power to run them simultaneously. Based on a new energy-efficient microarchitecture, the Pentium dual-core desktop processor delivers superior energy-efficient dual-core performance.
Energy Efficiency
Intel® Intelligent Power Capability, a feature of the Pentium dual-core processor, optimizes energy usage in the processor cores by turning computing functions on only when needed. This improves performance as well as the processor’s energy efficiency by operating at lower frequencies that require less power to run. These more energy-efficient processors support smaller and quieter desktop PCs.
Platform Support
When combined with an Intel® Express Chipset based board, you enjoy exceptional audio quality and a smooth visual experience with integrated Intel® High Definition Audio and Intel® Graphics Media Acceleration (GMA.) The flexible platform options bring an array of new capabilities like Voice over Internet Protocol (VoIP) or the colorful world of digital photography.
Features
* Intel® Dual-Core Processing
Runs two independent processor cores in one physical package at the same frequency. Features 1 MB of shared L2 cache and 800 MHz Front Side Bus.
* Intel® Wide Dynamic Execution
Improves execution speed and ef.ciency, delivering more instructions per clock cycle. Each core can complete up to four full instructions simultaneously.
* Intel® Smart Memory Access
Optimizes the use of the data bandwidth from the memory subsystem to accelerate out-of-order execution. A newly designed prediction mechanism reduces the time in-.ight
instructions have to wait for data. New pre-fetch algorithms move data from system memory into fast L2 cache in advance of execution. These functions keep the pipeline full, improving instruction throughput and performance.
* Intel® Advanced Smart Cache
The shared L2 cache is dynamically allocated to each processor core, based on workload. This ef.cient, dual-core optimized implementation increases the probability that each core can access data from the fast L2 cache, signi.cantly reducing latency to frequently used data and improving performance.
Intel Core 2 Duo E8600 Processor BX80570E8600
Processors > Intel > Core 2 Duo (775) > Retail
Intel Core 2 Duo E8600 Processor BX80570E8600 - 3.33GHz, 6MB Cache, 1333MHz FSB, Wolfdale, Dual-Core, Retail, Socket 775, Processor with Fan
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Intel Core 2 Duo E8600 Processor BX80570E8600
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Item Number: CP1-DUO-E8600
Availability: Order Today, Ships Today
Price: $289.99
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Intel Core 2 Duo E8600 Processor BX80570E8600
Built on the innovative Intel® Core™ microarchitecture, the Intel Core 2 Duo desktop processor delivers revolutionary dual-core performance and breakthrough processor energy efficiency. With Intel® Wide Dynamic Execution, Intel® Smart Memory Access, Intel® Advanced Smart Cache, and Intel® Digital Media Boost, this new processor is designed to do more in less time. Additional features, which support enhanced security, virtualization, and 64-bit computing, make the Intel Core 2 Duo the most impressive processor developed for an increasingly multimedia-centered, high-definition world.
Energy Efficiency
Design changes in the Intel Core 2 Duo processors that improve performance also increase processor energy efficiency by operating at lower frequencies that require less power to run. Intel® Intelligent Power Capability, a feature that optimizes energy usage of the processor cores, turns on computing functions only when needed. These more energy efficient processors support smaller, more capable, and quieter desktop PCs to conserve critical power resources.
ntel® Core™2 Processor Family
When launched later this year, the Intel® Core™2 Duo processor will provide enhanced performance and energy-efficiency in mobile applications while bringing for the first time the benefits of energy-efficient performance to mainstream desktop computing. It will be Intel's highest performing desktop processor ever and the new first choice of gamers and multimedia professionals worldwide.
As with the Intel® Pentium® processor brand, use of the number "2" signals the arrival of the next generation of technology to the Intel® Core™ processor line. In order to be consistent with our current Intel Core processor naming, we are continuing to use "Duo" to creatively and effectively indicate Intel® dual-core technology.
Intel Core 2 Duo E8600 Processor BX80570E8600 - 3.33GHz, 6MB Cache, 1333MHz FSB, Wolfdale, Dual-Core, Retail, Socket 775, Processor with Fan
2 Users Rated
Intel Core 2 Duo E8600 Processor BX80570E8600
More Intel Products
Item Number: CP1-DUO-E8600
Availability: Order Today, Ships Today
Price: $289.99
Protect Your Investment
Quantity
Payments as low as $10 /mo.
Add To My WISH LIST
COMPARE THIS DEAL! Our Price: $289.99
PC Mall $314.99
PC Connection $323.29
‡You Save $33.30
Intel Core 2 Duo E8600 Processor BX80570E8600
Built on the innovative Intel® Core™ microarchitecture, the Intel Core 2 Duo desktop processor delivers revolutionary dual-core performance and breakthrough processor energy efficiency. With Intel® Wide Dynamic Execution, Intel® Smart Memory Access, Intel® Advanced Smart Cache, and Intel® Digital Media Boost, this new processor is designed to do more in less time. Additional features, which support enhanced security, virtualization, and 64-bit computing, make the Intel Core 2 Duo the most impressive processor developed for an increasingly multimedia-centered, high-definition world.
Energy Efficiency
Design changes in the Intel Core 2 Duo processors that improve performance also increase processor energy efficiency by operating at lower frequencies that require less power to run. Intel® Intelligent Power Capability, a feature that optimizes energy usage of the processor cores, turns on computing functions only when needed. These more energy efficient processors support smaller, more capable, and quieter desktop PCs to conserve critical power resources.
ntel® Core™2 Processor Family
When launched later this year, the Intel® Core™2 Duo processor will provide enhanced performance and energy-efficiency in mobile applications while bringing for the first time the benefits of energy-efficient performance to mainstream desktop computing. It will be Intel's highest performing desktop processor ever and the new first choice of gamers and multimedia professionals worldwide.
As with the Intel® Pentium® processor brand, use of the number "2" signals the arrival of the next generation of technology to the Intel® Core™ processor line. In order to be consistent with our current Intel Core processor naming, we are continuing to use "Duo" to creatively and effectively indicate Intel® dual-core technology.
Intel Xeon E5320 Processor BX80563E5320A
ntel Xeon E5320 Processor BX80563E5320A
The Quad-Core Intel® Xeon® processor 5300 series is the industry's first quad-core processor for dual processor (DP) servers and workstations. Built on Intel® Core™ microarchitecture, these processors deliver industry leading performance and virtualization, and offer new levels of energy efficiency to help reduce cooling and density challenges.
Note: Includes 3U+ active / 1U passive thermal solution.
The Quad-Core Intel Xeon processor 5300 series is Intel's premier solution for the growing computing and data needs of many business-critical applications, and provides the most headroom (threads and performance) for virtualized server environments of any dual processor standard high volume server platform. Combined with the Intel® 5000 chipset family and Fully Buffered DIMM (FBDIMM) memory technology, the new Quad-Core Intel Xeon processor 5300 series-based platforms are expected to deliver breakthrough performance with better power efficiency, delivering up to 1.5 times the performance compared to leading Dual-Core Intel® Xeon® processor 5100 series in the same power envelope and up to 2.5 times the performance compared to the best published results of AMD Opteron Model 2220.
Features
* Quad-Core Processing
Significant performance headroom, especially for multi-threaded applications, helps boost system utilization through virtualization and application responsiveness.
* Intel® Core™ Microarchitecture
Better performance on multiple application types and user environments at a substantially reduce power envelope.
* 8 Cores/8 Threads
Increases support for more simultaneous processes
* 80W-120W SKUs
Increased Performance/Watt helps improve data center density and power/thermal operating costs.
* 8 MB Shared L2 Cache
Increases performance by reducing the number of system memory calls from applications.
* Up to 1066 MHz System Bus
Faster system bus speeds for increased throughput and performance.
* Intel® Virtualization Technology
New processor hardware enhancements that support software-based virtualization, enabling migration of more environments — including 64-bit OSs and applications — to virtual environments.
* Intel® 64
Flexibility for 64-bit and 32-bit applications and operating systems.
* Enhanced Intel® Speedstep™ Technology
Helps reduce average system power consumption and potentially improves system acoustics.
The Quad-Core Intel® Xeon® processor 5300 series is the industry's first quad-core processor for dual processor (DP) servers and workstations. Built on Intel® Core™ microarchitecture, these processors deliver industry leading performance and virtualization, and offer new levels of energy efficiency to help reduce cooling and density challenges.
Note: Includes 3U+ active / 1U passive thermal solution.
The Quad-Core Intel Xeon processor 5300 series is Intel's premier solution for the growing computing and data needs of many business-critical applications, and provides the most headroom (threads and performance) for virtualized server environments of any dual processor standard high volume server platform. Combined with the Intel® 5000 chipset family and Fully Buffered DIMM (FBDIMM) memory technology, the new Quad-Core Intel Xeon processor 5300 series-based platforms are expected to deliver breakthrough performance with better power efficiency, delivering up to 1.5 times the performance compared to leading Dual-Core Intel® Xeon® processor 5100 series in the same power envelope and up to 2.5 times the performance compared to the best published results of AMD Opteron Model 2220.
Features
* Quad-Core Processing
Significant performance headroom, especially for multi-threaded applications, helps boost system utilization through virtualization and application responsiveness.
* Intel® Core™ Microarchitecture
Better performance on multiple application types and user environments at a substantially reduce power envelope.
* 8 Cores/8 Threads
Increases support for more simultaneous processes
* 80W-120W SKUs
Increased Performance/Watt helps improve data center density and power/thermal operating costs.
* 8 MB Shared L2 Cache
Increases performance by reducing the number of system memory calls from applications.
* Up to 1066 MHz System Bus
Faster system bus speeds for increased throughput and performance.
* Intel® Virtualization Technology
New processor hardware enhancements that support software-based virtualization, enabling migration of more environments — including 64-bit OSs and applications — to virtual environments.
* Intel® 64
Flexibility for 64-bit and 32-bit applications and operating systems.
* Enhanced Intel® Speedstep™ Technology
Helps reduce average system power consumption and potentially improves system acoustics.
AMD Versus Intel
Each platform is fitted with a 4 GB of main memory and is operated using Windows Vista Enterprise. The AMD system uses DDR2-1066 memory, while the Intel machine employs DDR3-1333 memory. An X-Fi Xtreme Gamer sound card from Creative takes the pressure off the processor when it comes to audio calculations and ensures reproducible results. In addition, the workloads of the benchmarks are processed on a RAM disk in order to ensure that the hard drive does not slow up the fast quad-core processors.
We test using 31 benchmarks representing office, video, audio and gaming markets. We also added six Linux benchmarks, which are also executed using a RAM disk. The Linux benchmark suite covers kernel compilation, PHP, packing of files using Gzip, SciMark, OpenSSL encryption, and compilation of Mplayer software using the GCC compiler.
In order to ensure that our testing procedure is suitable for coming generations of processors, it contains five applications designed for eight-core CPUs and five additional applications for quad-core models. Very few benchmarks are able to handle more than one processing core, because software developers currently have little need to adopt threading. Examples of those with the capability include iTunes and Lame. Because there are still a number of tests that do not, in fact, support multi-core CPUs, those tests reflect the benefits of frequency over parallelism instead.
When it comes to desktop processors, the competitive situation between Intel and AMD has changed considerably. Unlike in the past, Intel is now ahead in just about every category. The Intel models are also generally more overclockable, which means it is possible to build a high-end system for a relatively low cost. AMD is having trouble keeping up with Intel’s upper echelon of performance-oriented solutions and its current processor models offered only minor overclocking potential up until recently, when the SB750 southbridge improved scalability on Black Edition Phenoms. Only a new method of manufacturing is likely to change this situation significantly, though.
We test using 31 benchmarks representing office, video, audio and gaming markets. We also added six Linux benchmarks, which are also executed using a RAM disk. The Linux benchmark suite covers kernel compilation, PHP, packing of files using Gzip, SciMark, OpenSSL encryption, and compilation of Mplayer software using the GCC compiler.
In order to ensure that our testing procedure is suitable for coming generations of processors, it contains five applications designed for eight-core CPUs and five additional applications for quad-core models. Very few benchmarks are able to handle more than one processing core, because software developers currently have little need to adopt threading. Examples of those with the capability include iTunes and Lame. Because there are still a number of tests that do not, in fact, support multi-core CPUs, those tests reflect the benefits of frequency over parallelism instead.
When it comes to desktop processors, the competitive situation between Intel and AMD has changed considerably. Unlike in the past, Intel is now ahead in just about every category. The Intel models are also generally more overclockable, which means it is possible to build a high-end system for a relatively low cost. AMD is having trouble keeping up with Intel’s upper echelon of performance-oriented solutions and its current processor models offered only minor overclocking potential up until recently, when the SB750 southbridge improved scalability on Black Edition Phenoms. Only a new method of manufacturing is likely to change this situation significantly, though.
Intel Core 2 Quad Q6600 Processor BX80562Q6600
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.
Detailed Features
Features
* Intel® Wide Dynamic Execution.
Enabling delivery of more instructions per clock cycle to improve execution time and energy efficiency
* Intel® Intelligent Power Capability
Designed to deliver more energy-efficient performance and smarter battery performance in your laptop
* Intel® Smart Memory Access
Improving system performance by optimizing the use of the available data bandwidth
* Intel® Advanced Smart Cache
Providing a higher-performance, more efficient cache subsystem. Optimized for multi-core and dual-core processors
* Intel® Advanced Digital Media Boost
Accelerating a broad range of applications, including video, speech and image, photo processing, encryption, financial, engineering and scientific applications
The Intel® Core™2 Quad processor is the latest in cutting edge processor technology for the desktop PC. Based on the new Intel® Core™ microarchitecture, the Intel Core 2 Quad processor delivers four complete execution cores within a single processor, delivering unprecedented performance and responsiveness in multi-threaded and multi-tasking business and home use environments.
The unprecedented performance of the Intel Core 2 Quad processor is made possible by each of the four complete execution cores delivering the full power of Intel Core microarchitecture. More instructions can be carried out per clock cycle, shorter and wider pipelines execute commands more quickly, and improved bus lanes move data throughout the system faster. This quad-core processor represents Intel’s continued leadership and drive of multi-core processing and more parallel computing.
Detailed Features
Features
* Intel® Wide Dynamic Execution.
Enabling delivery of more instructions per clock cycle to improve execution time and energy efficiency
* Intel® Intelligent Power Capability
Designed to deliver more energy-efficient performance and smarter battery performance in your laptop
* Intel® Smart Memory Access
Improving system performance by optimizing the use of the available data bandwidth
* Intel® Advanced Smart Cache
Providing a higher-performance, more efficient cache subsystem. Optimized for multi-core and dual-core processors
* Intel® Advanced Digital Media Boost
Accelerating a broad range of applications, including video, speech and image, photo processing, encryption, financial, engineering and scientific applications
Sunday, July 20, 2008
HP MediaSmart Server EX470 500GB - AMD Sempron 1.8GHz 64-bit, 512MB DDR, 500GB SATA, Gigabit LAN, 4 USB, 1 eSATA, Windows Home Server
HP MediaSmart Server EX470 500GB
 |
Best of CES 2007 Awards |
Features
Easy file sharing and streaming
- Centralize and share files and media across your network
- Remotely access your files and applications from any Internet-connected computer
- Stream photos, music, and videos to PCs on your network and TV and stereo system
- Automatically copy iTunes music libraries from family members' PCs to the server for streaming
Web sharing, backups, and more
- Create a photo Web site on your server with HP Photo Webshare, then share photos and video clips with only people you designate
- Invite people to your photo site: set up a personal Web address; visitors can download full-resolution photos or upload their own pics and video clips
- Automatically back up desktop PCs and laptops running Windows XP or later
- Add extra protection: designate folders that will be automatically duplicated on multiple hard drives
- Expand your storage via three internal hard-drive bays, four USB 2.0 ports, and eSATA port
- Get peace of mind with the one-year limited warranty
- Compatibility: Windows XP or more recent Microsoft operating system
Visionman C2D-TS100 Quad Core RAID 5 Tower Server
7550 Visionman C2D-TS100 Quad Core RAID 5 Tower Server
Amazing Processor Power. Hands down, the Intel Quad Core processor puts all of the competition to shame. With Intel’s Core microarchitecture, this generation of CPU will easily chew through anything imaginable. From database accesses to web hosting, watch your wait times evaporate into thin air. With qual-core power, you can easily amass a huge pile of open applications, and this system won’t even break a sweat.
Server Powerhouse
This beastly machine has every goody needed to plow through the most demanding applications on the market. Equipped with a whopping 4GB of ultra-fast, dual-channel DDR2-667, memory will never be a bottleneck ever again. Reliability is also a must, that’s why we are offering redundant RAID 5 storage. For sheer storage space, we also include triple massive Western Digital 250GB SATA-2 Raid Edition hard drives, which will store oodles of data.
All Visionman servers comes equipped with RAID Edition hard drives, unlike the desktop counterparts our competition uses. Ever wonder why drives keep dropping out of your array? This is why RAID Edition hard drives are paramount to a successful NAS deployment. Experience the reliability and precision engineering that only Visionman can offer.
64-Bit Scalability
Be prepared for the future! All Visionman systems are fully compliant for 64-bit support, and ready for the next big step in computing! Migrate only when you want to, any 64-bit OS will do. In addition to being 64-bit ready, all Visionman systems are also fully 32-bit compatible as well! Enjoy the benefits of both worlds.
World Class Support
For over 12 Years, Visionman has been providing homes and offices with the technology needed to stay ahead of the competition. For when you need IT solutions in a hurry, with superior quality, and backed by our top-tier support… go with a Vision system! We value all of our customers, and we're only happy when YOU are happy!
Upgrade Options
Would you like to upgrade something on this system? Just let us know and we’ll be glad to have it installed in the factory, so you don’t have to! Save time and money. Just call your sales rep and let them know what upgrade options you are interested in, it’s just that easy!
Intel DX38BT Motherboard - FREE Copy of Ghost Recon: Advanced Warfighter 2 PC Game, Intel X38, Socket 775, ATX, Audio, PCI Express 2.0, Gigabit LAN
Intel DX38BT Motherboard
Pulse-pounding gaming and high powered multimedia experiences require the ultimate in performance from your processor and motherboard. Intel® Desktop Board DX38BT is designed to unleash the power of Intel® Core™2 Extreme processors. With support for 1333 MHz front side bus, fast DDR3 memory and overclocking, Intel Desktop Board DX38BT delivers the gaming performance you deserve.
Intel Desktop Board DX38BT supports Dolby Home Theatre and Microsoft Windows Vista Premium WHQL certified
Intel® X38 Chipset
The Intel® X38 Express Chipset is the latest chipset designed to support the next generation 45nm CPU in high-end desktop and workstation platform; and up to 8GB of dual-channel DDR3 1066/800 MHz. It also supports 1333/1066/800 FSB (Front Side Bus), fully dual PCI Express x16 graphics and multi-core CPUs.
Pulse-pounding gaming and high powered multimedia experiences require the ultimate in performance from your processor and motherboard. Intel® Desktop Board DX38BT is designed to unleash the power of Intel® Core™2 Extreme processors. With support for 1333 MHz front side bus, fast DDR3 memory and overclocking, Intel Desktop Board DX38BT delivers the gaming performance you deserve.
Intel Desktop Board DX38BT supports Dolby Home Theatre and Microsoft Windows Vista Premium WHQL certified
Intel® X38 Chipset
The Intel® X38 Express Chipset is the latest chipset designed to support the next generation 45nm CPU in high-end desktop and workstation platform; and up to 8GB of dual-channel DDR3 1066/800 MHz. It also supports 1333/1066/800 FSB (Front Side Bus), fully dual PCI Express x16 graphics and multi-core CPUs.
Intel DX48BT2 Motherboard Review :: Introduction
Intel is the number one motherboard chipset manufacturer in the world to go along with being the number one CPU supplier to the computing public. The high-end enthusiasts in the market use Intel based motherboards but generally stay away from their branded motherboards. Intel is trying to get into the enthusiast market with boards like the DX48BT2 which is supposed to be for overclockers with their BoneTrail platform of which this is the motherboard component.
The X48 Express chipset was launched a month or two ago to great acclaim as it introduced new features like the FSB 1600MHz CPUs (Yorkfield) and sported a new MCH. The X48 chipset has been a success in the market place as AMD’s Phenom has not been a successful launch in terms of performance and features. Today’s review is on their branded DX48BT2 motherboard which Intel touts is for the overclocker and is geared for the enthusiast.
ASUS P5E3 Premium WIFi-AP @n Edition :: Introduction
Scores
- Features: 40
- Ergonomics: 10
- Compatibility: 23
- Support: 10
- Performance: 11
- Total: 94
With the release of the 45 nanometer Yorkfield and Wolfsdale CPUs from Intel, the need for high-end motherboards to support them has become apparent. The first official support for the new CPUs comes in the form of the X48 chipset, which is an update from the X38 chipset meant for the high-end computer enthusiast wanting the latest features and performance to match it.
ASUS builds motherboards, video cards and other computer components from a variety of manufacturers including Intel and NVIDIA. The latest motherboard in a long line-up of Intel based motherboards is the X48 based ASUS P5E3 Premium Wi-Fi-AP@n board on the test bench today. It should be interesting as it is the second X48 board on the test bench so let’s see what it’s all about.
ASUS Maximus Formula Motherboard Review :: Introduction
Scores
- Features: 40
- Ergonomics: 10
- Compatibility: 25
- Support: 10
- Performance: 8
- Total: 91
ASUS is one of my favorite motherboard companies, being a long time user since the ASUS P4E-800 days (Intel 865). Today ASUS is the number one motherboard manufacturer in terms of size and employees among the Tier-1 motherboard manufacturers and manufacture video cards, motherboards, laptop computers and other peripherals. Doc and I love Asus motherboards with the vast majority of our personal systems being based upon their motherboards.
Today I’m reviewing the ASUS motherboard the ASUS Maximus Formula based upon the Intel X38 chipset. While the X38 was released last year by ASUS, it is an excellent choice to show performance versus the NVIDIA nForce 780i SLI chipset as the board supports ATI’s Crossfire solution, meaning that you can put two ATI cards on the board to improve gaming performance.
ECS GF8200A Black Motherboard Review :: Introduction
Scores
- Features: 35
- Ergonomics: 9
- Compatibility: 25
- Support: 7
- Performance: 13
- Total: 89
NVIDIA, along with ATI have brought their video card expertise to the integrated motherboard graphics and that has resulted in good integrated graphics in the form of the GeForce 2 MX graphics being nearly as powerful as the GeForce 2 MX discrete cards. The last generation integrated graphics from NVIDIA was the GeForce 6200 series which brought DirectX 9.0 graphics to the integrated world. NVIDIA recently launched the GeForce 8200 for the Athlon market to address the DirectX 10.0 market.
A comparison of the PCI chipsets sold by Intel Corporation.
A comparison of the PCI chipsets sold by Intel Corporation.
| Marketing Name | Code Name | Processors Supported | Max RAM | Max cachable RAM | Max SIMM Slots | SIMM Types | SIMM Protection | Max CPUs | EIDE Disk Support | USB |
| 450NX PCIset | ? | Pentium II Xeon, 100MHz bus | 8G (64Mbit) interleaved | 8G | 32 | EDO and DRAM | ECC | 4 | PIIX4E Ulta DMA/33 33 MB/s | Host/hub |
| 440GX AGPset | ? | Pentium II Xeon, 100MHz bus | 2G (128Mbit) | 2G | 4 | SDRAM | ECC | 1 | PIIX4E Ulta DMA/33 33 MB/s | Host/hub |
| 440BX AGPset | ? | Pentium II, 100MHz bus | 1G (64Mbit) | 1G | 4 | SDRAM | ECC | 2 | PIIX4E Ulta DMA/33 33 MB/s | Host/hub |
| 440ZX AGPset | ? | Celeron, Pentium II, 100MHz bus | 256M (64Mbit) | 256M | 2 | SDRAM | None | 1 | PIIX4E Ulta DMA/33 33 MB/s | Host/hub |
| 440ZX-66 AGPset | ? | Celeron, Pentium II, 66MHz bus | 256M (64Mbit) | 256M | 2 | SDRAM | None | 1 | PIIX4E Ulta DMA/33 33 MB/s | Host/hub |
| 440EX AGPset | ? | Celeron, Pentium II | 256M (64Mbit) | 256M | 2 | SDRAM, EDO | ECC | 1 | PIIX4E Ulta DMA/33 33 MB/s | Host/hub |
| 440LX AGPset | ? | Pentium II | 1G EDO, 512M SDRAM (64Mbit) | 1G | 4 | SDRAM, EDO | ECC | 2 | PIIX4 Ulta DMA/33 33 MB/s | Host/hub |
| 440FX PCIset | Natoma | Pentium Pro, Pentium II | 1G (64Mbit) | 1G | 8 | FP, EDO | ECC | 6 | PIIX3 mode 4 16 MB/s | Host/hub |
| 450KX/GX PCIset | Orion | Pentium Pro | 1G (64Mbit) | 1G | 8 | FP | ECC | 4 | PIIX3 mode 4 16 MB/s | None |
| 430TX PCIset | Triton 2 | Pentium | 256M (64Mbit) | 64M | 3 | FP, EDO, SDRAM | None | 1 | PIIX4 Ulta DMA/33 33 MB/s | Host/hub |
| 430VX PCIset | Triton 2 | Pentium | 128M (64Mbit) | 64M | 5 | FP, EDO, SDRAM | None | 1 | PIIX3 mode 4 16 MB/s | Host/hub |
| 430HX PCIset | Triton 2 | Pentium | 512M | 512M | 8 | FP, EDO | ECC | 2 | PIIX3 mode 4 16 MB/s | Host/hub |
| 430MX PCIset | Triton | Pentium | 128M | 64M | 4 | FP, EDO | None | 1 | PIIX mode 3 16 MB/s | None |
| 430FX PCIset | Triton | Pentium | 128M | 64M | 6 | FP, EDO | None | 1 | PIIX2 mode 4 16 MB/s | None |
| 83434NX PCIset | Neptune | Pentium | 512M | 512M | 8 | FP | Parity | 2 | None | None |
| 83434LX PCIset | Mercury | Pentium | 128M | 128M | 8 | FP | Parity | 1 | None | None |
Intel Motehrboards Comparisons
A comparison of the features and capabilities of the different Pentium, Pentium II, Pentium III, Celeron, Pentium Pro and 486 Motherboards sold by Intel Corporation.
Please note that Magenta Systems does not sell motherboards or any PC hardware, nor can we recommend any dealers that do so. These pages are purely for comparative purposes.
This page is no longer updated and does not include any motherboards released since 1999.
The Intel Motherboard Reference is compiled by Magenta Systems Ltd from Intel motherboard data sheets.
Covers all current Pentium III, Pentium II, Celeron, Pentium Pro, Pentium and 486 motherboards, detailing code name, BIOS level, chipset, slots, memory and I/O capabilities. Includes
| AC450NX C440GX+/Cypress L440GX+/Lancewood SE440BX-3/Seattle 3 SR440BX/Sun River AB440ZX/Alberta FJ440ZX/Fiji BL440ZX/Bali AD450NX SC450NX/Sitka Cabrillo T440BX/Nightlight BI440ZX/Bimini RC440BX/Rochester SE440BX-2/Seattle 2 WS440BX/Warm Springs MP440BX/Mount Prospect KU440EX/Kaui SE440BX/Seattle N440BX/Nightshade JN440BX/Juneau MU440EX/Maui MB440LX/Madrona | R440LX/Redwood LM440LX/Livermore BB440FX/Buckeye Balboa RC440FX/Rosewood Columbus AP450GX/Alder Poca BC450GX CN430TX/Chattanooga Atlana Dakota NX440LX Dublin Portland Anchorage Lonetree Mailman Providence Venus Apollo Newport Tucson Orlando | Cumberland Agate Tiger Eye Ruby Rhinestone Marl Aurora Thor Atlantis Endeavour Monaco Morrison Zappa Alladin Plato Altair Socrates Batman Robin Ninja Entrada Alfredo |
The Archive Version contains original Excel version 5 or 7 spreadsheets formatted to print on single sheets of paper. Archive also contains converted text CVS, QuattroPro WB2 and Lotus 123 WK4 versions (less well formatted).
Version 15 adds several new Pentium II and Pentium Pro motherboards, mainly aimed at servers.
Version 16 adds the new BX and EX chipsets and new motherboards using these chipsets.
Version 17 adds the new NX and ZX chipsets, new motherboards using these chipsets, and other new PII MBs.
Version 18 updates existing motherboards that are Pentium III capable, and adds several new MBs using GX2, BX and ZX chipsets.
The latest Intel motherboard information including full Acrobat format manuals is available from the Intel OEM Motherboards web site.
The latest BIOSs for Intel motherboard are available from the Intel FTP site.
For an in depth information of the different motherboard features, Tom´s Hardware Page is highly recommended.
The House of Hall site has more information about identifying and upgrading BIOS's and motherboards, including links to the various Intel motherboard manuals.
Motherboard HomeWorld has lots more motherboard information and links and how to build a PC.
For information and jumpers on thousands of hard disks, look at PC Disk.
Wednesday, June 11, 2008
Intel processor numbers (model numbers)
Intel processors
Intel processor number (model number) represents processor's relative performance within the same processor family. The processor number depends on processor's speed, front bus speed, L2 cache size, architecture and other processor features. The processors with larger numbers within the same family have greater performance than processors with smaller numbers. Please note that because different processor families use different ranges of model numbers, the model numbers cannot be used to compare processors from different families. For example, it's not possible to compare this way Celeron and Pentium 4 CPUs. Within the same family the numbers can only tell which processor is faster or slower, but they cannot be used to tell how much faster or slower the processor is.
The first digit or letter and digit in the processor number identifies Intel processor processor family:
- 2xx - Celeron M
- 3xx - Celeron M and Celeron D
- 4xx - Celeron M
- 5xx - Pentium 4
- 5xx - Mobile Pentium 4
- 6xx - Pentium 4
- 7xx - Pentium M
- 8xx - Pentium D and Pentium Extreme Edition
- 9xx - Pentium D and Pentium Extreme Edition
- 3xxx - Xeon
- 5xxx - Xeon
- 7xxx - Xeon
- 9xxx - Itanium 2
- E1xxx - Celeron Dual-Core
- E2xxx - Pentium Dual-Core
- E3xxx - Xeon
- E4xxx - Core 2 Duo
- E5xxx - Quad-core Xeon
- E6xxx - Core 2 Duo
- E7xxx - Core 2 Duo
- E7xxx - Xeon MP
- E8xxx - Core 2 Duo
- L2xxx - Low-voltage Core Duo
- L7xxx - Low-voltage Core 2 Duo Mobile
- Q6xxx - Core 2 Quad
- Q9xxx - Core 2 Quad
- QX6xxx - Core 2 Extreme
- QX9xxx - Core 2 Extreme
- QX9xxx - Xeon
- T1xxx - Core Solo
- T2xxx - Core Duo
- T2xxx - Pentium Dual-Core Mobile
- T5xxx - Core 2 Duo Mobile
- T7xxx - Core 2 Duo Mobile
- T8xxx - Core 2 Duo Mobile
- T9xxx - Core 2 Duo Mobile
- U1xxx - Ultra low-power Core Solo
- U2xxx - Ultra low-power Core Duo
- U2xxx - Ultra low-power Core 2 Solo
- U7xxx - Ultra low-power Core 2 Duo Mobile
- X3xxx - Quad-core Xeon
- X5xxx - Quad-core Xeon
- X6xxx - Core 2 Extreme
- X7xxx - Core 2 Extreme Mobile
- X9xxx - Core 2 Extreme Mobile
| Model numbers of Intel CPUs | ||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Model number | Type | Technology (micron) | Processor speed (GHz) | Bus speed (MHz) | L2 cache size (KB) | L3 cache size (MB) | EM64T | HT | VT | SS | ED | Notes |
| 205 | Celeron M | 0.09 | 1.2 | 400 | 512 | Y | ||||||
| 215 | Celeron M | 0.09 | 1.33 | 533 | 512 | Y | ||||||
| 310 | Celeron D | 0.09 | 2.13 | 533 | 256 | |||||||
| 310 | Celeron M | 0.13 | 1.2 | 400 | 512 | |||||||
| 315 | Celeron D | 0.09 | 2.26 | 533 | 256 | |||||||
| 318 | Celeron M | 0.13 | 0.9 | 400 | 512 | Ultra low voltage | ||||||
| 320 | Celeron D | 0.09 | 2.4 | 533 | 256 | |||||||
| 320 | Celeron M | 0.13 | 1.3 | 400 | 512 | |||||||
| 325 | Celeron D | 0.09 | 2.53 | 533 | 256 | |||||||
| 325J | Celeron D | 0.09 | 2.53 | 533 | 256 | Y | ||||||
| 326 | Celeron D | 0.09 | 2.53 | 533 | 256 | Y | Y | |||||
| 330 | Celeron D | 0.09 | 2.66 | 533 | 256 | |||||||
| 330 | Celeron M | 0.13 | 1.4 | 400 | 512 | |||||||
| 330J | Celeron D | 0.09 | 2.66 | 533 | 256 | Y | ||||||
| 331 | Celeron D | 0.09 | 2.66 | 533 | 256 | Y | Y | |||||
| 333 | Celeron M | 0.13 | 0.9 | 400 | 512 | Ultra low voltage | ||||||
| 335 | Celeron D | 0.09 | 2.8 | 533 | 256 | |||||||
| 335J | Celeron D | 0.09 | 2.8 | 533 | 256 | Y | ||||||
| 336 | Celeron D | 0.09 | 2.8 | 533 | 256 | Y | Y | |||||
| 340 | Celeron D | 0.09 | 2.93 | 533 | 256 | |||||||
| 340 | Celeron M | 0.13 | 1.5 | 400 | 512 | |||||||
| 340J | Celeron D | 0.09 | 2.93 | 533 | 256 | Y | ||||||
| 341 | Celeron D | 0.09 | 2.93 | 533 | 256 | Y | Y | |||||
| 345 | Celeron D | 0.09 | 3.06 | 533 | 256 | |||||||
| 345J | Celeron D | 0.09 | 3.06 | 533 | 256 | Y | ||||||
| 346 | Celeron D | 0.09 | 3.06 | 533 | 256 | Y | Y | |||||
| 347 | Celeron D | 0.065 | 3.06 | 533 | 512 | Y | Y | |||||
| 350 | Celeron D | 0.09 | 3.2 | 533 | 256 | |||||||
| 350 | Celeron M | 0.09 | 1.3 | 400 | 1024 | |||||||
| 350J | Celeron M | 0.09 | 1.3 | 400 | 1024 | Y | ||||||
| 351 | Celeron D | 0.09 | 3.2 | 533 | 256 | Y | Y | |||||
| 352 | Celeron D | 0.065 | 3.2 | 533 | 512 | Y | Y | |||||
| 353 | Celeron M | 0.09 | 0.9 | 400 | 512 | Ultra low voltage | ||||||
| 355 | Celeron D | 0.09 | 3.33 | 533 | 256 | Y | Y | |||||
| 356 | Celeron D | 0.065 | 3.33 | 533 | 512 | Y | Y | |||||
| 360 | Celeron D | 0.065 | 3.46 | 533 | 512 | Y | Y | |||||
| 360 | Celeron M | 0.09 | 1.4 | 400 | 1024 | |||||||
| 360J | Celeron M | 0.09 | 1.4 | 400 | 1024 | Y | ||||||
| 370 | Celeron M | 0.09 | 1.5 | 400 | 1024 | Y | ||||||
| 373 | Celeron M | 0.09 | 1 | 400 | 512 | Y | Ultra low voltage | |||||
| 380 | Celeron M | 0.09 | 1.6 | 400 | 1024 | Y | ||||||
| 383 | Celeron M | 0.09 | 1 | 400 | 1024 | Y | Ultra low voltage | |||||
| 390 | Celeron M | 0.09 | 1.7 | 400 | 1024 | Y | ||||||
| 410 | Celeron M | 0.065 | 1.46 | 533 | 1024 | Y | ||||||
| 420 | Celeron M | 0.065 | 1.6 | 533 | 1024 | Y | ||||||
| 423 | Celeron M | 0.065 | 1.06 | 533 | 1024 | Y | ||||||
| 430 | Celeron M | 0.065 | 1.73 | 533 | 1024 | Y | ||||||
| 440 | Celeron M | 0.065 | 1.86 | 533 | 1024 | Y | ||||||
| 443 | Celeron M | 0.065 | 1.2 | 533 | 1024 | |||||||
| 450 | Celeron M | 0.065 | 2 | 533 | 1024 | Y | ||||||
| 505 | Pentium 4 | 0.09 | 2.66 | 533 | 1024 | |||||||
| 505J | Pentium 4 | 0.09 | 2.66 | 533 | 1024 | Y | Y | |||||
| 506 | Pentium 4 | 0.09 | 2.66 | 533 | 1024 | Y | Y | |||||
| 511 | Pentium 4 | 0.09 | 2.8 | 533 | 1024 | Y | Y | |||||
| 515 | Pentium 4 | 0.09 | 2.93 | 533 | 1024 | |||||||
| 516 | Pentium 4 | 0.09 | 2.93 | 533 | 1024 | Y | Y | |||||
| 517 | Pentium 4 | 0.09 | 2.93 | 533 | 1024 | Y | Y | Y | ||||
| 518 | Mobile Pentium 4 | 0.09 | 2.8 | 533 | 1024 | Y | Y | |||||
| 519 | Pentium 4 | 0.09 | 3.06 | 533 | 1024 | Y | ||||||
| 519K | Pentium 4 | 0.09 | 3.06 | 533 | 1024 | Y | Y | |||||
| 520 | Celeron M | 0.065 | 1.6 | 533 | 1024 | |||||||
| 520 | Pentium 4 | 0.09 | 2.8 | 800 | 1024 | Y | ||||||
| 520J | Pentium 4 | 0.09 | 2.8 | 800 | 1024 | Y | Y | |||||
| 521 | Pentium 4 | 0.09 | 2.8 | 800 | 1024 | Y | Y | Y | ||||
| 524 | Pentium 4 | 0.09 | 3.06 | 533 | 1024 | Y | Y | Y | ||||
| 530 | Celeron M | 0.065 | 1.73 | 533 | 1024 | |||||||
| 530 | Pentium 4 | 0.09 | 3 | 800 | 1024 | Y | ||||||
| 530J | Pentium 4 | 0.09 | 3 | 800 | 1024 | Y | Y | |||||
| 531 | Pentium 4 | 0.09 | 3 | 800 | 1024 | Y | Y | Y | ||||
| 532 | Mobile Pentium 4 | 0.09 | 3.06 | 533 | 1024 | Y | Y | |||||
| 538 | Mobile Pentium 4 | 0.09 | 3.2 | 533 | 1024 | Y | Y | |||||
| 540 | Pentium 4 | 0.09 | 3.2 | 800 | 1024 | Y | ||||||
| 540J | Pentium 4 | 0.09 | 3.2 | 800 | 1024 | Y | Y | |||||
| 541 | Pentium 4 | 0.09 | 3.2 | 800 | 1024 | Y | Y | Y | ||||
| 548 | Mobile Pentium 4 | 0.09 | 3.33 | 533 | 1024 | Y | Y | |||||
| 550 | Pentium 4 | 0.09 | 3.4 | 800 | 1024 | Y | ||||||
| 550J | Pentium 4 | 0.09 | 3.4 | 800 | 1024 | Y | Y | |||||
| 551 | Pentium 4 | 0.09 | 3.4 | 800 | 1024 | Y | Y | Y | ||||
| 552 | Mobile Pentium 4 | 0.09 | 3.46 | 533 | 1024 | Y | Y | |||||
| 560 | Pentium 4 | 0.09 | 3.6 | 800 | 1024 | Y | ||||||
| 560J | Pentium 4 | 0.09 | 3.6 | 800 | 1024 | Y | Y | |||||
| 561 | Pentium 4 | 0.09 | 3.6 | 800 | 1024 | Y | Y | Y | ||||
| 570J | Pentium 4 | 0.09 | 3.8 | 800 | 1024 | Y | Y | |||||
| 571 | Pentium 4 | 0.09 | 3.8 | 800 | 1024 | Y | Y | Y | ||||
| 630 | Pentium 4 | 0.09 | 3 | 800 | 2048 | Y | Y | Y | Y | |||
| 631 | Pentium 4 | 0.065 | 3 | 800 | 2048 | Y | Y | Y | Y | |||
| 640 | Pentium 4 | 0.09 | 3.2 | 800 | 2048 | Y | Y | Y | Y | |||
| 641 | Pentium 4 | 0.065 | 3.2 | 800 | 2048 | Y | Y | Y | Y | |||
| 650 | Pentium 4 | 0.09 | 3.4 | 800 | 2048 | Y | Y | Y | Y | |||
| 651 | Pentium 4 | 0.065 | 3.4 | 800 | 2048 | Y | Y | Y | Y | |||
| 660 | Pentium 4 | 0.09 | 3.6 | 800 | 2048 | Y | Y | Y | Y | |||
| 661 | Pentium 4 | 0.065 | 3.6 | 800 | 2048 | Y | Y | Y | Y | |||
| 662 | Pentium 4 | 0.09 | 3.6 | 800 | 2048 | Y | Y | Y | Y | Y | ||
| 670 | Pentium 4 | 0.09 | 3.8 | 800 | 2048 | Y | Y | Y | Y | |||
| 672 | Pentium 4 | 0.09 | 3.8 | 800 | 2048 | Y | Y | Y | Y | Y | ||
| 705 | Pentium M | 0.13 | 1.5 | 400 | 1024 | Y | ||||||
| 710 | Pentium M | 0.09 | 1.4 | 400 | 2048 | |||||||
| 713 | Pentium M | 0.13 | 1.1 | 400 | 1024 | Y | Ultra low voltage | |||||
| 715 | Pentium M | 0.09 | 1.5 | 400 | 2048 | Y | ||||||
| 715A | Pentium M | 0.09 | 1.5 | 400 | 2048 | Y | Y? | |||||
| 718 | Pentium M | 0.13 | 1.3 | 400 | 1024 | Y | Low voltage | |||||
| 723 | Pentium M | 0.09 | 1 | 400 | 2048 | Y | Ultra low voltage | |||||
| 725 | Pentium M | 0.09 | 1.6 | 400 | 2048 | Y | ||||||
| 725A | Pentium M | 0.09 | 1.6 | 400 | 2048 | Y | Y? | |||||
| 730 | Pentium M | 0.09 | 1.6 | 533 | 2048 | Y | Y | |||||
| 733 | Pentium M | 0.09 | 1.1 | 400 | 2048 | Y | Ultra low voltage | |||||
| 733J | Pentium M | 0.09 | 1.1 | 400 | 2048 | Y | Y | Ultra low voltage | ||||
| 735 | Pentium M | 0.09 | 1.7 | 400 | 2048 | Y | ||||||
| 735A | Pentium M | 0.09 | 1.7 | 400 | 2048 | Y | Y? | |||||
| 738 | Pentium M | 0.09 | 1.4 | 400 | 2048 | Y | Low voltage | |||||
| 740 | Pentium M | 0.09 | 1.73 | 533 | 2048 | Y | Y | |||||
| 745 | Pentium M | 0.09 | 1.8 | 400 | 2048 | Y | ||||||
| 745A | Pentium M | 0.09 | 1.8 | 400 | 2048 | Y | Y? | |||||
| 750 | Pentium M | 0.09 | 1.86 | 533 | 2048 | Y | Y | |||||
| 753 | Pentium M | 0.09 | 1.2 | 400 | 2048 | Y | Y | Ultra low voltage | ||||
| 755 | Pentium M | 0.09 | 2 | 400 | 2048 | Y | ||||||
| 758 | Pentium M | 0.09 | 1.5 | 400 | 2048 | Y | Y | Low voltage | ||||
| 760 | Pentium M | 0.09 | 2 | 533 | 2048 | Y | Y | |||||
| 765 | Pentium M | 0.09 | 2.1 | 400 | 2048 | Y | ||||||
| 770 | Pentium M | 0.09 | 2.13 | 533 | 2048 | Y | Y | |||||
| 773 | Pentium M | 0.09 | 1.3 | 400 | 2048 | Y | Y | Ultra low voltage | ||||
| 778 | Pentium M | 0.09 | 1.6 | 400 | 2048 | Y | Y | Low voltage | ||||
| 780 | Pentium M | 0.09 | 2.26 | 533 | 2048 | Y | Y | |||||
| 805 | Pentium D | 0.09 | 2.66 | 533 | 2048 | Y | Y | Dual-core | ||||
| 820 | Pentium D | 0.09 | 2.8 | 800 | 2048 | Y | Y | Dual-core | ||||
| 830 | Pentium D | 0.09 | 3 | 800 | 2048 | Y | Y | Y | Dual-core | |||
| 840 | Pentium Extreme Edition | 0.09 | 3.2 | 800 | 2048 | Y | Y | Y | Dual-core | |||
| 840 | Pentium D | 0.09 | 3.2 | 800 | 2048 | Y | Y | Y | Dual-core | |||
| 915 | Pentium D | 0.065 | 2.8 | 800 | 4096 | Y | Y | Y | Dual-core | |||
| 920 | Pentium D | 0.065 | 2.8 | 800 | 4096 | Y | Y | Y | Y | Dual-core | ||
| 925 | Pentium D | 0.065 | 3 | 800 | 4096 | Y | Y | Y | Dual-core | |||
| 930 | Pentium D | 0.065 | 3 | 800 | 4096 | Y | Y | Y | Y | Dual-core | ||
| 940 | Pentium D | 0.065 | 3.2 | 800 | 4096 | Y | Y | Y | Y | Dual-core | ||
| 945 | Pentium D | 0.065 | 3.4 | 800 | 4096 | Y | Y | Y | Dual-core | |||
| 950 | Pentium D | 0.065 | 3.4 | 800 | 4096 | Y | Y | Y | Y | Dual-core | ||
| 955 | Pentium Extreme Edition | 0.065 | 3.46 | 1066 | 4096 | Y | Y | Y | Y | Dual-core | ||
| 960 | Pentium D | 0.065 | 3.6 | 800 | 4096 | Y | Y | Y | Y | Dual-core | ||
| 965 | Pentium Extreme Edition | 0.065 | 3.73 | 1066 | 4096 | Y | Y | Y | Y | Dual-core | ||
| 3040 | Xeon | 0.065 | 1.86 | 1066 | 2048 | Y | Y | Y | Y | Dual-core Uni-processing | ||
| 3050 | Xeon | 0.065 | 2.13 | 1066 | 2048 | Y | Y | Y | Y | Dual-core Uni-processing | ||
| 3060 | Xeon | 0.065 | 2.4 | 1066 | 4096 | Y | Y | Y | Y | Dual-core Uni-processing | ||
| 3065 | Xeon | 0.065 | 2.33 | 1333 | 4096 | Y | Y | Y | Y | Dual-core Uni-processing | ||
| 3070 | Xeon | 0.065 | 2.66 | 1066 | 4096 | Y | Y | Y | Y | Dual-core Uni-processing | ||
| 3075 | Xeon | 0.065 | 2.66 | 1333 | 4096 | Y | Y | Y | Y | Dual-core Uni-processing | ||
| 3085 | Xeon | 0.065 | 3 | 1333 | 4096 | Y | Y | Y | Y | Dual-core Uni-processing | ||
| 5020 | Xeon | 0.065 | 2.5 | 667 | 4096 | Dual-core | ||||||
| 5030 | Xeon | 0.065 | 2.67 | 667 | 4096 | Y | Y | Y | Y | Dual-core Dual-processing | ||
| 5040 | Xeon | 0.065 | 2.83 | 667 | 4096 | Dual-core | ||||||
| 5050 | Xeon | 0.065 | 3 | 667 | 4096 | Y | Y | Y | Y | Dual-core Dual-processing | ||
| 5060 | Xeon | 0.065 | 3.2 | 1066 | 4096 | Y | Y | Y | Y | Dual-core Dual-processing | ||
| 5063 | Xeon | 0.065 | 3.2 | 1066 | 4096 | Y | Y | Y | Y | Dual-core Dual-processing | ||
| 5070 | Xeon | 0.065 | 3.46 | 1066 | 4096 | Dual-core | ||||||
| 5080 | Xeon | 0.065 | 3.73 | 1066 | 4096 | Y | Y | Y | Y | Dual-core Dual-processing | ||
| 5110 | Xeon | 0.065 | 1.6 | 1066 | 4096 | Y | Y | Y | Dual-core Dual-processing | |||
| 5120 | Xeon | 0.065 | 1.86 | 1066 | 4096 | Y | Y | Y | Dual-core Dual-processing | |||
| 5130 | Xeon | 0.065 | 2 | 1333 | 4096 | Y | Y | Y | Dual-core Dual-processing | |||
| 5140 | Xeon | 0.065 | 2.33 | 1333 | 4096 | Y | Y | Y | Dual-core Dual-processing | |||
| 5148LV | Xeon | 0.065 | 2.33 | 1333 | 4096 | Y | Y | Y | Dual-core Dual-processing | |||
| 5150 | Xeon | 0.065 | 2.66 | 1333 | 4096 | Y | Y | Y | Dual-core Dual-processing | |||
| 5160 | Xeon | 0.065 | 3 | 1333 | 4096 | Y | Y | Y | Dual-core Dual-processing | |||
| 7020 | Xeon | 0.09 | 2.66 | 667 | 2048 | Y | Y | Y | Y | Dual-core Multi-processing | ||
| 7030 | Xeon | 0.09 | 2.8 | 800 | 2048 | Y | Y | Y | Y | Dual-core Multi-processing | ||
| 7040 | Xeon | 0.09 | 3 | 667 | 4096 | Y | Y | Y | Y | Dual-core Multi-processing | ||
| 7041 | Xeon | 0.09 | 3 | 800 | 4096 | Y | Y | Y | Y | Dual-core Multi-processing | ||
| 7110M | Xeon | 0.065 | 2.6 | 800 | 2048 | 4 | Y | Y | Y | Y | Dual-core Multi-processing | |
| 7110N | Xeon | 0.065 | 2.5 | 667 | 2048 | 4 | Y | Y | Y | Y | Dual-core Multi-processing | |
| 7120M | Xeon | 0.065 | 3 | 800 | 2048 | 4 | Y | Y | Y | Y | Dual-core Multi-processing | |
| 7120N | Xeon | 0.065 | 3 | 667 | 2048 | 4 | Y | Y | Y | Y | Dual-core Multi-processing | |
| 7130M | Xeon | 0.065 | 3.2 | 800 | 2048 | 8 | Y | Y | Y | Y | Dual-core Multi-processing | |
| 7130N | Xeon | 0.065 | 3.1 | 667 | 2048 | 8 | Y | Y | Y | Y | Dual-core Multi-processing | |
| 7140M | Xeon | 0.065 | 3.4 | 800 | 2048 | 16 | Y | Y | Y | Y | Dual-core Multi-processing | |
| 7140N | Xeon | 0.065 | 3.33 | 667 | 2048 | 16 | Y | Y | Y | Y | Dual-core Multi-processing | |
| 7150N | Xeon | 0.065 | 3.5 | 667 | 2048 | 16 | Y | Y | Y | Y | Dual-core Multi-processing | |
| 9010 | Itanium 2 | 1.6 | 400/533 | 6 | ||||||||
| 9015 | Itanium 2 | 1.4 | 400 | 12 | Y | Y | Dual-core | |||||
| 9020 | Itanium 2 | 1.42 | 400/533 | 12 | Y | Y | Dual-core | |||||
| 9030 | Itanium 2 | 1.6 | 400/533 | 8 | Y | Dual-core | ||||||
| 9040 | Itanium 2 | 0.065 | 1.6 | 400/533 | 18 | Y | Y | Dual-core | ||||
| 9050 | Itanium 2 | 0.065 | 1.6 | 400/533 | 24 | Y | Y | Dual-core | ||||
| 9052 | Itanium 2 | 0.065 | 1.6 | 533 | 24 | Y | Dual-core | |||||
| 9110N | Itanium 2 | 0.065 | 1.6 | 400/533 | 12 | Y | ||||||
| 9120N | Itanium 2 | 0.065 | 1.42 | 400/533 | 12 | Y | Y | Dual-core | ||||
| 9130M | Itanium 2 | 0.065 | 1.66 | 667 | 8 | Y | Dual-core | |||||
| 9140N | Itanium 2 | 0.065 | 1.6 | 400/533 | 18 | Y | Y | Dual-core | ||||
| 9140M | Itanium 2 | 0.065 | 1.66 | 667 | 18 | Y | Y | Dual-core | ||||
| 9150N | Itanium 2 | 0.065 | 1.6 | 400/533 | 24 | Y | Dual-core | |||||
| 9150M | Itanium 2 | 0.065 | 1.66 | 667 | 24 | Y | Y | Dual-core | ||||
| E1200 | Celeron Dual-Core | 0.065 | 1.6 | 800 | 512 | Y | Y | Y | Dual-core | |||
| E2140 | Pentium Dual-Core | 0.065 | 1.6 | 800 | 1024 | Y | Y | Y | Dual-core | |||
| E2160 | Pentium Dual-Core | 0.065 | 1.8 | 800 | 1024 | Y | Y | Y | Dual-core | |||
| E2180 | Pentium Dual-Core | 0.065 | 2 | 800 | 1024 | Y | Y | Y | Dual-core | |||
| E2200 | Pentium Dual-Core | 0.065 | 2.2 | 800 | 1024 | Y | Y | Y | Dual-core | |||
| E2220 | Pentium Dual-Core | 0.065 | 2.4 | 800 | 1024 | Y | Y | Y | Dual-core | |||
| E3110 | Xeon | 0.045 | 3 | 1333 | 6144 | Y | Y | Y | Y | Dual-core | ||
| E4200 | Core 2 Duo | 0.065 | 1.6 | 800 | 2048 | Y | Y | Y | Dual-core | |||
| E4300 | Core 2 Duo | 0.065 | 1.8 | 800 | 2048 | Y | Y | Y | Dual-core | |||
| E4400 | Core 2 Duo | 0.065 | 2 | 800 | 2048 | Y | Y | Y | Dual-core | |||
| E4500 | Core 2 Duo | 0.065 | 2.2 | 800 | 2048 | Y | Y | Y | Dual-core | |||
| E4600 | Core 2 Duo | 0.065 | 2.4 | 800 | 2048 | Y | Y | Y | Dual-core | |||
| E4700 | Core 2 Duo | 0.065 | 2.6 | 800 | 2048 | Y | Y | Y | Dual-core | |||
| E5205 | Xeon | 0.045 | 1.86 | 1066 | 6144 | Y | Y | Y | Dual-core Dual-processing | |||
| E5310 | Xeon | 0.065 | 1.6 | 1066 | 8192 | Y | Y | Y | Quad-core Dual-processing | |||
| E5320 | Xeon | 0.065 | 1.86 | 1066 | 8192 | Y | Y | Y | Quad-core Dual-processing | |||
| E5335 | Xeon | 0.065 | 2 | 1333 | 8192 | Y | Y | Y | Quad-core Dual-processing | |||
| E5345 | Xeon | 0.065 | 2.33 | 1333 | 8192 | Y | Y | Y | Quad-core Dual-processing | |||
| E5405 | Xeon | 0.045 | 2 | 1333 | 12288 | Y | Y | Y | Quad-core Dual-processing | |||
| E5410 | Xeon | 0.045 | 2.33 | 1333 | 12288 | Y | Y | Y | Quad-core Dual-processing | |||
| E5420 | Xeon | 0.045 | 2.5 | 1333 | 12288 | Y | Y | Y | Quad-core Dual-processing | |||
| E5430 | Xeon | 0.045 | 2.66 | 1333 | 12288 | Y | Y | Y | Quad-core Dual-processing | |||
| E5440 | Xeon | 0.045 | 2.83 | 1333 | 12288 | Y | Y | Y | Quad-core Dual-processing | |||
| E5450 | Xeon | 0.045 | 3 | 1333 | 12288 | Y | Y | Y | Quad-core Dual-processing | |||
| E5462 | Xeon | 0.045 | 2.8 | 1600 | 12288 | Y | Y | Y | Quad-core Dual-processing | |||
| E5472 | Xeon | 0.045 | 3 | 1600 | 12288 | Y | Y | Y | Quad-core Dual-processing | |||
| E6300 | Core 2 Duo | 0.065 | 1.86 | 1066 | 2048 | Y | Y | Y | Y | Dual-core | ||
| E6320 | Core 2 Duo | 0.065 | 1.86 | 1066 | 4096 | Y | Y | Y | Y | Dual-core | ||
| E6400 | Core 2 Duo | 0.065 | 2.13 | 1066 | 2048 | Y | Y | Y | Y | Dual-core | ||
| E6420 | Core 2 Duo | 0.065 | 2.13 | 1066 | 4096 | Y | Y | Y | Y | Dual-core | ||
| E6540 | Core 2 Duo | 0.065 | 2.33 | 1333 | 4096 | Y | Y | Y | Y | Dual-core | ||
| E6550 | Core 2 Duo | 0.065 | 2.33 | 1333 | 4096 | Y | Y | Y | Y | Dual-core Trusted Execution Technology | ||
| E6600 | Core 2 Duo | 0.065 | 2.4 | 1066 | 4096 | Y | Y | Y | Y | Dual-core | ||
| E6700 | Core 2 Duo | 0.065 | 2.66 | 1066 | 4096 | Y | Y | Y | Y | Dual-core | ||
| E6750 | Core 2 Duo | 0.065 | 2.66 | 1333 | 4096 | Y | Y | Y | Y | Dual-core Trusted Execution Technology | ||
| E6850 | Core 2 Duo | 0.065 | 3 | 1333 | 4096 | Y | Y | Y | Y | Dual-core Trusted Execution Technology | ||
| E7200 | Core 2 Duo | 0.045 | 2.53 | 1066 | 3072 | Y | Y | Y | Dual-core | |||
| E7210 | Xeon | 0.065 | 2.4 | 1066 | 8192 | Y | Y | Y | Multi-processing Dual-core | |||
| E7220 | Xeon | 0.065 | 2.93 | 1066 | 8192 | Y | Y | Y | Multi-processing Dual-core | |||
| E7310 | Xeon | 0.065 | 1.6 | 1066 | 4096 | Y | Y | Y | Multi-processing Quad-core | |||
| E7320 | Xeon | 0.065 | 2.13 | 1066 | 4096 | Y | Y | Y | Multi-processing Quad-core | |||
| E7330 | Xeon | 0.065 | 2.4 | 1066 | 6144 | Y | Y | Y | Multi-processing Quad-core | |||
| E7340 | Xeon | 0.065 | 2.4 | 1066 | 8192 | Y | Y | Y | Multi-processing Quad-core | |||
| E8190 | Core 2 Duo | 0.045 | 2.67 | 1333 | 6144 | Y | Y | Y | Dual-core | |||
| E8200 | Core 2 Duo | 0.045 | 2.67 | 1333 | 6144 | Y | Y | Y | Y | Dual-core Trusted Execution Technology | ||
| E8300 | Core 2 Duo | 0.045 | 2.83 | 1333 | 6144 | Y | Y | Y | Y | Dual-core Trusted Execution Technology | ||
| E8400 | Core 2 Duo | 0.045 | 3 | 1333 | 6144 | Y | Y | Y | Y | Dual-core Trusted Execution Technology | ||
| E8500 | Core 2 Duo | 0.045 | 3.17 | 1333 | 6144 | Y | Y | Y | Y | Dual-core Trusted Execution Technology | ||
| L2300 | Core Duo | 0.065 | 1.5 | 667 | 2048 | Y | Y | Y | Dual-core Low voltage | |||
| L2400 | Core Duo | 0.065 | 1.66 | 667 | 2048 | Y | Y | Y | Dual-core Low voltage | |||
| L2500 | Core Duo | 0.065 | 1.83 | 667 | 2048 | Y | Y | Y | Dual-core Low voltage | |||
| L5310 | Xeon | 0.065 | 1.6 | 1066 | 8192 | Y | Y | Y | Quad-core Dual-processing Low voltage | |||
| L5320 | Xeon | 0.065 | 1.86 | 1066 | 8192 | Y | Y | Y | Quad-core Dual-processing Low voltage | |||
| L5335 | Xeon | 0.065 | 2 | 1333 | 8192 | Y | Y | Y | Quad-core Dual-processing Low voltage | |||
| L7200 | Core 2 Duo Mobile | 0.065 | 1.33 | 667 | 4096 | Y | Y | Y | Y | Dual-core Low voltage | ||
| L7300 | Core 2 Duo Mobile | 0.065 | 1.4 | 800 | 4096 | Y | Y | Y | Y | Dual-core Low voltage | ||
| L7345 | Xeon | 0.065 | 1.86 | 1066 | 8192 | Y | Y | Y | Multi-processing Quad-core Low voltage | |||
| L7400 | Core 2 Duo Mobile | 0.065 | 1.5 | 667 | 4096 | Y | Y | Y | Y | Dual-core Low voltage | ||
| L7500 | Core 2 Duo Mobile | 0.065 | 1.6 | 800 | 4096 | Y | Y | Y | Y | Dual-core Low voltage | ||
| Q6600 | Core 2 Quad | 0.065 | 2.4 | 1066 | 8192 | Y | Y | Y | Y | Quad-core | ||
| Q6700 | Core 2 Quad | 0.065 | 2.66 | 1066 | 8192 | Y | Y | Y | Y | Quad-core | ||
| Q9300 | Core 2 Quad | 0.045 | 2.5 | 1333 | 6144 | Y | Y | Y | Y | Quad-core | ||
| Q9450 | Core 2 Quad | 0.045 | 2.67 | 1333 | 12288 | Y | Y | Y | Y | Quad-core | ||
| Q9550 | Core 2 Quad | 0.045 | 2.83 | 1333 | 12288 | Y | Y | Y | Y | Quad-core | ||
| QX6700 | Core 2 Extreme | 0.065 | 2.66 | 1066 | 8192 | Y | Y | Y | Y | Quad-core | ||
| QX6800 | Core 2 Extreme | 0.065 | 2.93 | 1066 | 8192 | Y | Y | Y | Y | Quad-core | ||
| QX6850 | Core 2 Extreme | 0.065 | 3 | 1333 | 8192 | Y | Y | Y | Y | Quad-core | ||
| QX9650 | Core 2 Extreme | 0.045 | 3 | 1333 | 12288 | Y | Y | Y | Y | Quad-core | ||
| QX9770 | Core 2 Extreme | 0.045 | 3.2 | 1600 | 12288 | Y | Y | Y | Y | Quad-core | ||
| QX9775 | Xeon | 0.045 | 3.2 | 1600 | 12288 | Y | Y | Y | Y | Quad-core | ||
| T1300 | Core Solo | 0.065 | 1.66 | 667 | 2048 | Y | Y | |||||
| T1350 | Core Solo | 0.065 | 1.86 | 533 | 2048 | |||||||
| T1400 | Core Solo | 0.065 | 1.83 | 667 | 2048 | Y | Y | |||||
| T2050 | Core Duo | 0.065 | 1.6 | 533 | 2048 | Y | Y | Dual-core | ||||
| T2060 | Pentium Dual-Core Mobile | 0.065 | 1.6 | 533 | 1024 | Y | Y | Dual-core | ||||
| T2080 | Pentium Dual-Core Mobile | 0.065 | 1.73 | 533 | 1024 | Y | Y | Dual-core | ||||
| T2130 | Pentium Dual-Core Mobile | 0.065 | 1.86 | 533 | 1024 | Y | Y | Dual-core | ||||
| T2250 | Core Duo | 0.065 | 1.73 | 533 | 2048 | Y | Y | Dual-core | ||||
| T2300 | Core Duo | 0.065 | 1.66 | 667 | 2048 | Y | Y | Y | Dual-core | |||
| T2300E | Core Duo | 0.065 | 1.66 | 667 | 2048 | Y | Y | Dual-core | ||||
| T2310 | Pentium Dual-Core Mobile | 0.065 | 1.46 | 533 | 1024 | Y | Y | Y | Dual-core | |||
| T2330 | Pentium Dual-Core Mobile | 0.065 | 1.6 | 533 | 1024 | Y | Y | Y | Dual-core | |||
| T2350 | Core Duo | 0.065 | 1.86 | 533 | 2048 | Y | Y | Dual-core | ||||
| T2370 | Pentium Dual-Core Mobile | 0.065 | 1.73 | 533 | 1024 | Y | Y | Y | Dual-core | |||
| T2400 | Core Duo | 0.065 | 1.83 | 667 | 2048 | Y | Y | Y | Dual-core | |||
| T2450 | Core Duo | 0.065 | 2 | 533 | 2048 | Y | Y | Dual-core | ||||
| T2500 | Core Duo | 0.065 | 2 | 667 | 2048 | Y | Y | Y | Dual-core | |||
| T2600 | Core Duo | 0.065 | 2.16 | 667 | 2048 | Y | Y | Y | Dual-core | |||
| T2700 | Core Duo | 0.065 | 2.33 | 667 | 2048 | Y | Y | Dual-core | ||||
| T5200 | Core 2 Duo Mobile | 0.065 | 1.6 | 533 | 2048 | Y | Y | Y | Dual-core | |||
| T5250 | Core 2 Duo Mobile | 0.065 | 1.5 | 667 | 2048 | Y | Y | Y | Dual-core | |||
| T5300 | Core 2 Duo Mobile | 0.065 | 1.73 | 533 | 2048 | Y | Y | Y | Dual-core | |||
| T5450 | Core 2 Duo Mobile | 0.065 | 1.66 | 667 | 2048 | Y | Y | Y | Dual-core | |||
| T5470 | Core 2 Duo Mobile | 0.065 | 1.6 | 800 | 2048 | Y | Y | Y | Dual-core | |||
| T5500 | Core 2 Duo Mobile | 0.065 | 1.66 | 667 | 2048 | Y | Y | Y | Dual-core | |||
| T5550 | Core 2 Duo Mobile | 0.065 | 1.83 | 667 | 2048 | Y | Y | Y | Dual-core | |||
| T5600 | Core 2 Duo Mobile | 0.065 | 1.83 | 667 | 2048 | Y | Y | Y | Y | Dual-core | ||
| T7100 | Core 2 Duo Mobile | 0.065 | 1.8 | 800 | 2048 | Y | Y | Y | Y | Dual-core | ||
| T7200 | Core 2 Duo Mobile | 0.065 | 2 | 667 | 4096 | Y | Y | Y | Y | Dual-core | ||
| T7250 | Core 2 Duo Mobile | 0.065 | 2 | 800 | 2048 | Y | Y | Y | Y | Dual-core | ||
| T7300 | Core 2 Duo Mobile | 0.065 | 2 | 800 | 4096 | Y | Y | Y | Y | Dual-core | ||
| T7400 | Core 2 Duo Mobile | 0.065 | 2.16 | 667 | 4096 | Y | Y | Y | Y | Dual-core | ||
| T7500 | Core 2 Duo Mobile | 0.065 | 2.2 | 800 | 4096 | Y | Y | Y | Y | Dual-core | ||
| T7600 | Core 2 Duo Mobile | 0.065 | 2.33 | 667 | 4096 | Y | Y | Y | Y | Dual-core | ||
| T7700 | Core 2 Duo Mobile | 0.065 | 2.4 | 800 | 4096 | Y | Y | Y | Y | Dual-core | ||
| T7800 | Core 2 Duo Mobile | 0.065 | 2.6 | 800 | 4096 | Y | Y | Y | Y | Dual-core | ||
| T8100 | Core 2 Duo Mobile | 0.045 | 2.1 | 800 | 3072 | Y | Y | Y | Y | Dual-core | ||
| T8300 | Core 2 Duo Mobile | 0.045 | 2.4 | 800 | 3072 | Y | Y | Y | Y | Dual-core | ||
| T9300 | Core 2 Duo Mobile | 0.045 | 2.5 | 800 | 6144 | Y | Y | Y | Y | Dual-core | ||
| T9500 | Core 2 Duo Mobile | 0.045 | 2.6 | 800 | 6144 | Y | Y | Y | Y | Dual-core | ||
| U1300 | Core Solo | 0.065 | 1.06 | 533 | 2048 | Y | Y | Y | Ultra-Low voltage | |||
| U1400 | Core Solo | 0.065 | 1.2 | 533 | 2048 | Y | Y | Y | Ultra-Low voltage | |||
| U2100 | Core 2 Solo | 0.065 | 1.06 | 533 | 1024 | Y | Y | Y | Y | |||
| U2200 | Core 2 Solo | 0.065 | 1.2 | 533 | 1024 | Y | Y | Y | Y | |||
| U2400 | Core Duo | 0.065 | 1.06 | 533 | 2048 | Y | Y | Y | Dual-core Ultra low voltage | |||
| U2500 | Core Duo | 0.065 | 1.2 | 533 | 2048 | Y | Y | Y | Dual-core Ultra low voltage | |||
| U7500 | Core 2 Duo Mobile | 0.065 | 1.06 | 533 | 2048 | Y | Y | Y | Y | Dual-core Ultra low voltage | ||
| U7600 | Core 2 Duo Mobile | 0.065 | 1.2 | 533 | 2048 | Y | Y | Y | Y | Dual-core Ultra low voltage | ||
| X3210 | Xeon | 0.065 | 2.13 | 1066 | 8192 | Y | Y | Y | Quad-core Uni-processing | |||
| X3220 | Xeon | 0.065 | 2.4 | 1066 | 8192 | Y | Y | Y | Quad-core Uni-processing | |||
| X3230 | Xeon | 0.065 | 2.66 | 1066 | 8192 | Y | Y | Y | Quad-core Uni-processing | |||
| X3320 | Xeon | 0.045 | 2.5 | 1333 | 6144 | Y | Y | Y | Y | Quad-core Uni-processing | ||
| X3350 | Xeon | 0.045 | 2.66 | 1333 | 12288 | Y | Y | Y | Y | Quad-core Uni-processing | ||
| X3360 | Xeon | 0.045 | 2.83 | 1333 | 12288 | Y | Y | Y | Y | Quad-core Uni-processing | ||
| X5260 | Xeon | 0.045 | 3.33 | 1333 | 6144 | Y | Y | Y | Dual-core Dual-processing | |||
| X5272 | Xeon | 0.045 | 3.4 | 1600 | 6144 | Y | Y | Y | Dual-core Dual-processing | |||
| X5355 | Xeon | 0.065 | 2.66 | 1333 | 8192 | Y | Y | Y | Quad-core Dual-processing | |||
| X5365 | Xeon | 0.065 | 3 | 1333 | 8192 | Y | Y | Y | Quad-core Dual-processing | |||
| X5450 | Xeon | 0.045 | 3 | 1333 | 12288 | Y | Y | Y | Quad-core Dual-processing | |||
| X5460 | Xeon | 0.045 | 3.16 | 1333 | 12288 | Y | Y | Y | Quad-core Dual-processing | |||
| X5472 | Xeon | 0.045 | 3 | 1600 | 12288 | Y | Y | Y | Quad-core Dual-processing | |||
| X5482 | Xeon | 0.045 | 3.2 | 1600 | 12288 | Y | Y | Y | Quad-core Dual-processing | |||
| X6800 | Core 2 Extreme | 0.065 | 2.93 | 1066 | 4096 | Y | Y | Y | Y | Dual-core | ||
| X7350 | Xeon | 0.065 | 2.93 | 1066 | 8192 | Y | Y | Y | Multi-processing Quad-core | |||
| X7800 | Core 2 Extreme Mobile | 0.065 | 2.6 | 800 | 4096 | Y | Y | Y | Y | Dual-core | ||
| X7900 | Core 2 Extreme Mobile | 0.065 | 2.8 | 800 | 4096 | Y | Y | Y | Y | Dual-core | ||
| X9000 | Core 2 Extreme Mobile | 0.045 | 2.8 | 800 | 6144 | Y | Y | Y | Y | Dual-core | ||
Column names abbreviations:
ED - execution disable bit technology
EM64T - 64-bit mode
HT - hyper-threading technology
SS - SpeedStep technology
VT - Virtualization technology
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