| The Intel Pentium dual-core processor delivers great performance, low power enhancements, and multitasking for embedded computing. The Intel Pentium dual-core processor E2160? with a thermal design power of 65 watts delivers energy-efficient dual-core performance for cost-sensitive embedded designs. Intel 65nm process technology makes it possible to integrate two complete execution cores in one physical package, providing advancements in simultaneous computing for multi-threaded applications and multi-tasking environments.
This dual-core processor is well suited for a wide range of performance-intensive, low-power embedded applications in smaller form factors such as interactive clients (i.e., point-of-sale terminals and ATMs), gaming platforms, industrial control and automation, and print imaging. While incorporating advanced processor technology, these processors remain software-compatible with previous IA-32 processors.
The Intel Pentium dual-core processor E2160 is validated with the Intel Q35 Express Chipset and Intel Q965 Express Chipset. The Intel Q35 Express Chipset platform brings a new level of power reduction in idle and maximum power, making it an ideal choice for embedded applications meeting high-performance, low-thermal specifications.
Dual-core processor
The Intel Pentium dual-core processor is the newest addition to the Intel Pentium processor family. This dual-core processor delivers high-value performance for multitasking.
Intel 64 architecture
Supports 64-bit instructions, providing flexibility for 64-bit and 32-bit applications and operating systems. Access to larger physical memory space reduces load on the system and allows faster access to data from RAM instead of the drive.
Intel Advanced Smart Cache
Intel Smart Cache enables smarter, more efficient cache and bus design for enhanced performance and responsiveness.
Intel Intelligent Power Capability
Manages runtime power consumption of execution cores by turning on computing functions only when needed. Reduces overall power consumption, enabling quieter, more power-efficient system designs.
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