Intel Duo T2400 BX80539T2400 Fascicule
Codes de produits
BX80539T2400
Features and Benefits of the Intel® Core™ Duo Processor
Features
Benefits
Intel® Smart Cache – 2MB
Delivers a smarter and more efficient cache and bus design to enable enhanced dual-core performance
L2 cache with Advanced
and power savings.
Transfer Cache Architecture
Intel® Digital Media Boost
Intel® Digital Media Boost
Micro-architectural enhancements that include instruction optimizations and performance enhancements
accelerate a diverse variety of processing-intensive tasks, such as audio/video processing, image processing,
3D graphics, and scientific calculations.
Intel® Dynamic Power
Dual-core on demand, coordinated performance with enhanced low power management features Dynamic
Coordination with
Bus Parking. This enables platform power savings by allowing the chipset to power down with the processor
Dynamic Bus Parking
in these low-frequency mode states.
Enhanced Intel® Deeper
Allows the processor to lower voltage below the Deeper Sleep minimum voltage to enable enhanced
Sleep with Dynamic
power savings. Dynamic Cache Sizing is a new power savings mechanism that enables the Intel® Smart
Cache Sizing
Cache to dynamically flush system memory based on demand or during periods of inactivity.
Intel® Advanced Thermal
A new thermal management system delivers enhanced accuracy and more precise acoustic control to
Manager
enable quieter, cooler, thinner system designs.
Power-Optimized 667 MHz
Utilizes Source-Synchronous Transfer (SST) of address and data enables improved performance by
System Bus
transferring data at 4X bus clock. Advanced Gunning Transceiver Logic (AGTL+) signaling technology,
a variant of GTL+ signaling technology, delivering low power enhancements.
Enhanced Intel SpeedStep®
Multiple performance modes enable optimum performance at the lowest power, using real-time dynamic
Technology Support
switching of the voltage and frequency between multiple performance modes based on CPU demand.
New Intel 65nm Process
Smaller transistors enable more logic and more frequency headroom for increased performance.
Technology
To learn more about the new, mobile-optimized Intel Core Duo processor,
visit www.intel.com/products/processor.
† System performance, battery life, and functionality will vary depending
on your specific operating system, hardware and software con-
figurations. References to enhanced performance as measured by
SySMark*2004, PCMark*2005 and 3DMark*2005 refer to comparisons
with previous generation processors. References to improved battery
life as measured by MobileMark*2005, if applicable, refer to previous
generation processors. See http://www.intel.com/products/centrino/
more_info for more information.
Intel, the Intel logo, the Intel Leap Ahead logo, Intel Inside, the Intel Inside
logo, Intel Core Duo, the Intel Core Duo logo, Intel Viiv, Intel SpeedStep,
and Centrino Duo are trademarks or registered trademarks of Intel
Corporation or its subsidiaries in the United States and other countries.
*Other names and brands may be claimed as the property of others.
Copyright © 2006 Intel Corporation. All rights reserved.
*Other names and brands may be claimed as the property of others.
Copyright © 2006 Intel Corporation. All rights reserved.
0106/MS/HB/PDF
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Specialized Dual-Core Microarchitecture
The Intel Core Duo processor includes two mobile-optimized
execution cores in a single processor. This design enables
execution of parallel threads or applications on separate cores
with dedicated CPU resources. The results enable outstanding
dual-core performance and greater system response when
running multi-threaded or multiple demanding applications
simultaneously.
execution cores in a single processor. This design enables
execution of parallel threads or applications on separate cores
with dedicated CPU resources. The results enable outstanding
dual-core performance and greater system response when
running multi-threaded or multiple demanding applications
simultaneously.
†
The Intel Core Duo processor features a high-performance
core architecture that uses micro-op fusion and Advanced
Stack Management techniques to maximize performance
while optimizing power efficiencies. Micro-op fusion combines
micro-ops derived from the same macro-op. Advanced Stack
Management reduces the number of micro-ops in stack-
related operations by tracking relative stack pointer changes
locally. Reducing the number of micro-ops results in more
efficient scheduling for better performance at lower power.
core architecture that uses micro-op fusion and Advanced
Stack Management techniques to maximize performance
while optimizing power efficiencies. Micro-op fusion combines
micro-ops derived from the same macro-op. Advanced Stack
Management reduces the number of micro-ops in stack-
related operations by tracking relative stack pointer changes
locally. Reducing the number of micro-ops results in more
efficient scheduling for better performance at lower power.