The Intel ® Core ™ is the first dual-core processor optimized for Intel notebooks and an essential component of the new platform of mobile technology Intel ® Centrino ® Duo ™. This Intel processor for laptops next generation offers a dual-core mobile performance while revolutionary allows for greater battery life.
With two execution cores, the Intel Core Duo processor is optimized for multithreaded applications and multitasking. You can simultaneously run multiple applications with large power requirements, such as games with complex graphics or complex calculation programs, while downloading music or running virus programs in the background.
SPECIFICATIONS:
With two execution cores, the Intel Core Duo processor is optimized for multithreaded applications and multitasking. You can simultaneously run multiple applications with large power requirements, such as games with complex graphics or complex calculation programs, while downloading music or running virus programs in the background.
SPECIFICATIONS:
Processor Intel ®: Core ™ Duo
Processor Number Δ: T2300, T2300E, T2400, T2500, T2600, T2700
Architecture: 65nm
Cache
2MB L2 clock speed: from 1.66 to 2.16 GHz System Bus
:
667 MHz Chipset Intel ® Chipsets: 945
Other key features:
Technology
Intel SpeedStep ® Technology Execute Disable Bit 31 W power
problem-solving and FAQs:
to ) which is the core multi arquitectrura?:
Stated most simply, a dual processor requires heart-silicon design engineers placing two Intel Pentium ® "execution cores" or computational engines, within a single processor. This dual-core processor plugs directly into a single processor socket, but the operating system perceives each of their hearts implemented as discrete logical processor with all related facilities implementation. Future versions of multi-core Intel architecture will have more than two execution cores.
b) What is the difference between multi-core architecture and Hyper-Threading Technology (HT Technology)?
HT Technology is limited to a single core using existing execution resources more efficiently to better enable threading, while the multi-core capability provides two complete sets of resources for implementing the throughput of calculating the increase. Any use which has been threaded technology must deliver great performance HT when run on Intel-based system multicoreprocessor. Consequently, users can take advantage of many existing product lines applications processor and are optimized for two threads from the beginning of the transition to Intel multi-core architectures through its desktop, mobile and server.
c) Will my application work on a multi-core system if my code is not thread?
Intel's tradition of backward compatibility goes back to its earliest processors and continues today. Any application that runs on a single processor core Intel processor work on a Intel multi-core. However, for an application to take advantage of multi-core capabilities, the code must be multithreaded.
d) What applications are good candidates to be moved from a serial multi threaded performance gains of experience in multi-core systems?
First, any program is in a class of applications where it is now relatively common threading - video encoding, 3D rendering, video / photo editing and high performance computing / workstation use. These applications are particularly favorable level parallelism thread because many of their computations can run simultaneously. Second, although most are single-threaded games today, gaming applications can also benefit from multithreading. For example, physics and artificial intelligence (AI) may work in separate threads, potentially leading to a more realistic and more challenging game. Finally, Intel plans to quickly make the transition to multi-core architecture across all its product lines and most industry watchers expect the processor clock speed levels off in the years ahead. The implication is that, in the near future, threading and concurrency will become increasingly important boosting the performance of all software.
e) If the processors Intel ® Celeron ® M and Intel ® mobile Centrino ® are both part of the family of Intel's mobility, what are the differences?
Duo mobile technology Intel ® Centrino ® (Duo processor Intel ® Core ™ express chipset family Intel ® 945 wireless and connection Intel ® PRO / Wireless 3945BG or 3945ABG Network) and mobile technology Intel ® Centrino ® (Solo processor Intel ® Core ™ processor, Intel ® Pentium ® M processor, chipset family express chipset family Intel ® 855 or Mobile Intel ® 915 and Intel ® PRO / Wireless 2100, 2200BG network connection, or 2915ABG) represents the best combination of Intel mobile technologies that deliver the four vectors of mobility: performance, integrated radio , allows for great battery life, enabling factors thinner / lighter form. Brand Intel ® Celeron ® M processor represents only Intel ® Celeron ® M Designed for mobility, the Intel ® Celeron ® M processor delivers exceptional value with a balance of mobile technology processor systems enabling thinner and lighter.
f) How Duo processor Intel ® Core ™ Solo processor Intel ® Core ™, Intel ® Celeron ® M processors and Intel ® Pentium ® M differ from each other?
Duo processor Intel ® Core ™ is the next-generation processor in technology-based notebooks latest mobile Intel ® Centrino ® mobile performance and delivery of revolutionary dual-core and high energy efficiency . Solo processor Intel ® Core ™ represents the next generation in processor innovation. Is enhanced to handle today's demanding software use-such as graphics-intensive games or serious number-crunching programs. Processor Intel ® Pentium ® M is designed, tested and tuned for mobility, including mobile performance gap, allowing great battery life, allowing for sleeker, lighter design of the laptop. Processor Intel ® Celeron ® M processor delivers a balanced level of mobile performance mobile processor technology, lower voltage enables sleeker, lighter design of the laptop at an exceptional value.
COMPARISON:
TEXO CORPORATIONS BY INTEL -SPANISH TRANSLATION COURTESY
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Processor Number Δ: T2300, T2300E, T2400, T2500, T2600, T2700
Architecture: 65nm
Cache
2MB L2 clock speed: from 1.66 to 2.16 GHz System Bus
:
667 MHz Chipset Intel ® Chipsets: 945
Other key features:
Technology
Intel SpeedStep ® Technology Execute Disable Bit 31 W power
problem-solving and FAQs:
to ) which is the core multi arquitectrura?:
Stated most simply, a dual processor requires heart-silicon design engineers placing two Intel Pentium ® "execution cores" or computational engines, within a single processor. This dual-core processor plugs directly into a single processor socket, but the operating system perceives each of their hearts implemented as discrete logical processor with all related facilities implementation. Future versions of multi-core Intel architecture will have more than two execution cores.
b) What is the difference between multi-core architecture and Hyper-Threading Technology (HT Technology)?
HT Technology is limited to a single core using existing execution resources more efficiently to better enable threading, while the multi-core capability provides two complete sets of resources for implementing the throughput of calculating the increase. Any use which has been threaded technology must deliver great performance HT when run on Intel-based system multicoreprocessor. Consequently, users can take advantage of many existing product lines applications processor and are optimized for two threads from the beginning of the transition to Intel multi-core architectures through its desktop, mobile and server.
c) Will my application work on a multi-core system if my code is not thread?
Intel's tradition of backward compatibility goes back to its earliest processors and continues today. Any application that runs on a single processor core Intel processor work on a Intel multi-core. However, for an application to take advantage of multi-core capabilities, the code must be multithreaded.
d) What applications are good candidates to be moved from a serial multi threaded performance gains of experience in multi-core systems?
First, any program is in a class of applications where it is now relatively common threading - video encoding, 3D rendering, video / photo editing and high performance computing / workstation use. These applications are particularly favorable level parallelism thread because many of their computations can run simultaneously. Second, although most are single-threaded games today, gaming applications can also benefit from multithreading. For example, physics and artificial intelligence (AI) may work in separate threads, potentially leading to a more realistic and more challenging game. Finally, Intel plans to quickly make the transition to multi-core architecture across all its product lines and most industry watchers expect the processor clock speed levels off in the years ahead. The implication is that, in the near future, threading and concurrency will become increasingly important boosting the performance of all software.
e) If the processors Intel ® Celeron ® M and Intel ® mobile Centrino ® are both part of the family of Intel's mobility, what are the differences?
Duo mobile technology Intel ® Centrino ® (Duo processor Intel ® Core ™ express chipset family Intel ® 945 wireless and connection Intel ® PRO / Wireless 3945BG or 3945ABG Network) and mobile technology Intel ® Centrino ® (Solo processor Intel ® Core ™ processor, Intel ® Pentium ® M processor, chipset family express chipset family Intel ® 855 or Mobile Intel ® 915 and Intel ® PRO / Wireless 2100, 2200BG network connection, or 2915ABG) represents the best combination of Intel mobile technologies that deliver the four vectors of mobility: performance, integrated radio , allows for great battery life, enabling factors thinner / lighter form. Brand Intel ® Celeron ® M processor represents only Intel ® Celeron ® M Designed for mobility, the Intel ® Celeron ® M processor delivers exceptional value with a balance of mobile technology processor systems enabling thinner and lighter.
f) How Duo processor Intel ® Core ™ Solo processor Intel ® Core ™, Intel ® Celeron ® M processors and Intel ® Pentium ® M differ from each other?
Duo processor Intel ® Core ™ is the next-generation processor in technology-based notebooks latest mobile Intel ® Centrino ® mobile performance and delivery of revolutionary dual-core and high energy efficiency . Solo processor Intel ® Core ™ represents the next generation in processor innovation. Is enhanced to handle today's demanding software use-such as graphics-intensive games or serious number-crunching programs. Processor Intel ® Pentium ® M is designed, tested and tuned for mobility, including mobile performance gap, allowing great battery life, allowing for sleeker, lighter design of the laptop. Processor Intel ® Celeron ® M processor delivers a balanced level of mobile performance mobile processor technology, lower voltage enables sleeker, lighter design of the laptop at an exceptional value.
COMPARISON:
TEXO CORPORATIONS BY INTEL -SPANISH TRANSLATION COURTESY
ARRELGACOMPU.BLOGSPOT.COM
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