Intel® Pentium® Processor E2160 For embedded computing

The Intel® Pentium® processor delivers great performance, low power enhancements, and multitasking for embedded computing. The Intel® Pentium® processor E2160Δ 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 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.

Features and benefits

Dual-core processor	The Intel® Pentium® processor is the newest addition to the Intel® Pentium® processor family. This dual-core processor delivers high-value performance for multitasking.
Intel® 64 architectureΦ	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.