Pentium® III processors Chart

Pentium® III processors

Product Number Core Speed (MHz) L2 Cache External Bus Speed (MHz) Thermal Design Power (Max) Voltage Tjunction Package RK80530KZ012512 1.26 GHz 512K 133 29.5W 1.45V 69C* 370 FC-PGA2 RB80526PZ001256 1 GHz 256K 133 29.0W 1.75V 75C 370 FC-PGA RB80526PY001256+ 1 GHz 256K 100 29.0W 1.75V 75C 370 FC-PGA RB80526PZ866256 866 256K 133 26.1W 1.75V 80C 370 FC-PGA RB80526PY850256 850 256K 100 25.7W 1.75V 80C 370 FC-PGA RB80526PZ733256 733 256K 133 22.8W 1.75V 80C 370 FC-PGA RB80526PY700256 700 256K 100 21.9W 1.75V 80C 370 FC-PGA RB80526PY600256 600 256K 100 19.6W 1.75V 82C 370 FC-PGA

Case, not junction For existing embedded applications using the Intel® 440BX chipset only. Drop ship only.

Intel® Pentium® III Processors

Intel® Pentium® III Processor The Pentium® III processor is ideal for high performance applied computing. It supports highend communications, transaction terminal, and industrial automation applications. While incorporating new features and improvements, the Pentium III processor remains software compatible with previous members of the Intel microprocessor family.

Related Platforms Industrial Interactive Clients

The Pentium III processor is validated with multiple chipsets for maximum flexibility and scalability. Combined with the Intel 840 chipset, the Pentium III processor provides high performance and bandwidth including dual processing and a second PCI bus. The 815, 815E, 810 and 440BX chipsets provide a scalable platform supporting a wide selection of Celeron® and Pentium III processors ranging from 66 to 133 MHz processor side bus speeds. The 440BX AGPset supports ECC for the highest data integrity and ISA for legacy I/O. The Intel 815, 815E and 810 chipsets utilize Intel Graphics Technology, an integrated graphics platform which provides more stability, higher quality graphics and a reduced OEM bill of materials cost. 1.26 GHz 370-pin FC-PGA2 package with 512 KB Advanced Transfer Cache (on-die, full-speed L2 cache) 1 GHz, 866, 850, 733, 700 and 600 MHz, 370-pin FC-PGA package 700, 500 and 400 MHz BGA2 package 1 GHz, 866 and 733 MHz processor supports 133 MHz processor side bus 256 Kbytes Advanced Transfer Cache (on-die, full-speed L2 cache) Compatible with Intel® 840, 815, 815E, 810E2, 810 chipsets; Intel® 82801E C-ICH; Intel® 440BX AGPset and 440MX chipset.

Product highlights Intel Processor

Product highlights Intel Pentium 4 Processor with HT Technology: Available at 3.0 GHz and 3.4 GHz with 1M or 2M cache, and a 800 MHz front side bus delivering 6.4 GB of data per second into and out of the processor. Intel Pentium 4 Processor: Available at 2.0 GHz and 2.6 GHz with a 400 MHz front side bus delivering 3.2 GB of data per second and at 2.8 and 2.4 GHz with a 533 MHz front side bus delivering 4.2 GB of data per second into and out of the processor. Intel Pentium 4 Processor-M: Available at 1.7 GHz and 2.2 GHz with a 400 MHz processor side bus delivering 3.2 GB of data per second into and out of the processor Featuring the Intel NetBurst® microarchitecture Hyper-pipelined technology of the Intel NetBurst microarchitecture doubles the pipeline depth compared to the microarchitecture used on today's Intel® Pentium® III processors Rapid Execution Engine includes two Arithmetic Logic Units (ALUs) that are clocked at twice the core processor frequency Enhanced floating-point and multi-media unit expands floatingpoint registers to a full 128-bit and adds an additional register for data movement – 144 Streaming SIMD Extensions 2 (SSE2) instructions – 13 Streaming SIMD Extensions 3 (SSE3) instructions Data Prefetch Logic functionality anticipates the data needed by an application and preloads it into the Advanced Transfer Cache, further increasing processor and application performance Memory cacheability up to 4 GB of addressable memory space and system memory scalability up to 64 GB of physical memory Support for uni-processor designs Data integrity and reliability features such as Error Correcting Code, Fault Analysis and Recovery for both system and L2 cache buses Embedded lifecycle support

¹ Hyper-Threading Technology requires a computer system with an Intel® Pentium® 4 processor supporting HT Technology and a HT Technology enabled chipset, BIOS and operating system.

Intel® Pentium® 4 Processors – M

Intel® Pentium® 4 Processors – M
Core Speed (GHz)	Chipsets Supported	External Bus Speed (MHz)	L2 Cache	Thermal Design Power	Voltage††	Tcase	Package	Product Number
2.2	Intel 845E	400	512KB	35 watts	1.3V	100C	Micro-FC-PGA 478	RH80532GC049512††
1.7	Intel 845E	400	512KB	35 watts	1.3V	100C	Micro-FC-PGA 478	RH80532GC029512††

^†† Please note that the Intel® Pentium® 4 Processor - M for Embedded Computing at 1.7 GHz and 2.2 GHz are the same products as the Mobile Intel® Pentium® 4 Processor - M at 1.7/1.2 GHz and 2.2/1.2 GHz respectively. Because the Embedded Intel Architecture Group does not support Intel Speedstep® Technology for the Intel® Pentium® 4 Processors - M, additional design guidelines must be followed to operate the processors at the 1.7 GHz or 2.2 GHz speeds.

Intel® Pentium® 4 Processors 11

Intel® Pentium® 4 Processors
Core Speed (GHz)	Chipsets Supported	External Bus Speed (MHz)	L2 Cache	Thermal Design Power	Voltage†	Tcase	Package	Product Number
2.8	Intel 875P, 865G,	533	512KB	68.4 watts	1.525V	5-72C	FC-PGA2 478	RK80532PE072512
2.6	Intel 875P, 865G,	400	512KB	62.6 watts	1.525V	5-72C	FC-PGA2 478	RK80532PC064512
2.4	Intel 875P, 865G,	533	512KB	57.8 watts	1.525V	5-71C	FC-PGA2 478	RK80532PE056512
2.0	Intel 875P, 865G,	400	512KB	52.4 watts	1.525V	5-69C	FC-PGA2 478	RK80532PC041512

†The Intel® Pentium® 4 processor ships with different voltage settings.

Intel® Pentium® 4 Processors

For embedded computing

The Intel® Pentium® 4 processor, Intel® Pentium® 4 Processor with HT Technology¹, and Intel® Pentium® 4 processor - M for embedded computing with Intel NetBurst® microarchitecture deliver the performance you need to meet the growing demands of a new generation of leading-edge embedded products, with scalability that helps minimize your total cost of ownership. Networking, communications and storage appliances, sophisticated interactive clients, industrial automation solutions, digital security surveillance platforms, and imaging devices impose heavy application demands, and these leading-edge embedded processors provide the performance headroom you need.

Rapid platform development is supported by the latest operating systems, applications and Intel® Architecture development tools, as well as a variety of validated reference designs from Intel. While incorporating Intel's most advanced embedded processor technologies, the Intel Pentium 4 processor, Intel Prentium 4 Processor with HT Technology, and Intel Pentium 4 processor - M are software-compatible with previous Intel® Architecture processors

Intel® Pentium® 4 Processors with HT Technology

Intel® Pentium® 4 Processors with HT Technology
Core Speed (GHz)	Chipsets Supported	External Bus Speed (MHz)	L2 Cache	Thermal Design Power	Voltage	Tcase	Package	Product Number
3.4	Intel Q965 Intel 945G	800	2MB	65 watts	1.20- 1.325V	5-69.2° C	LGA-775	HH80552PG0962M processor 651
3.4	Intel 915GV Intel 945G	800	1MB	84 watts	1.25- 1.425V	5-72.8° C	LGA-775	HH80547PG0961MM processor 551
3.0	Intel 915GV	800	1MB	84 watts	1.20- 1.425V	5-67.7° C	LGA-775	HH80547PG0801MM processor 531
3.0	Intel 875P.	800	1MB	89 watts	1.25- 1.4V	5-69.1° C	socket 478	NE80546PG0801M

Intel® Pentium® M Processor

For Embedded Computing The Intel® Pentium® M processor utilizes a new microarchitecture to meet the current and future demands of high-performance, low-power embedded computing, making it ideal for medium-to-large enterprise communications applications, transaction terminal, interactive client, and industrial automation applications. While incorporating advanced processor technology, it remains software-compatible with previous members of the Intel® microprocessor family.

The Intel Pentium M Processor on 0.13u process technology is validated with the Intel E7501 and Intel 855GME chipsets. The Intel Pentium M Processor on 90nm process technology is validated with the Intel E7501, 855GME, E7520, E7320 chipsets, Mobile Intel® 915GME Express Chipset and Intel® 3100 (see table for details). These unique platform combinations help address a variety of customer requirements. Intel® Pentium® M Processor Core Speed (GHz) Chipsets Supported Front-side Bus Speed L2 Cache Thermal Design Power VID Tjunction Package Product Number 90nm Process Technology 2.0 GHz Intel® 915GME & ICH- 533 MHz 2 MB 27W 1.260V-1.356V 0-100°C 478 µFC-PGA RH80536GE0412M (Pentium M 2.0 GHz Intel® 533 MHz 2 MB 27W 1.260V-1.356V 0-100°C 479 µFC-BGA RJ80536GE0412M 1.8 GHz Intel® 915GME & ICH-6M, 400 MHz 2 MB 21W 1.276V-1.340V 0-100°C 478 µFC-PGA RH80536GC0332M (Pentium M processor 745) 1.8 GHz Intel® 915GME & ICH-6M, 400 MHz 2 MB 21W 1.276V-1.340V 0-100°C 479 µFC-BGA RJ80536GC0332M (Pentium M processor 745) 1.4 GHz Intel® 400 MHz 2 MB 10W 1.116V 0-100°C 479 µFC-BGA RJ80536LC0172M (Pentium M .13µ Process Technology 1.6 GHz Intel® 855GME 400 MHz 1 MB 24.5W 1.484V 0-100°C 478 µFC-PGA RH80535GC0251M 1.6 GHz Intel® 400 MHz 1 MB 24.5W 1.484V 0-100°C 479 µFC-BGA RJ80535GC0251M 1.1 GHz Intel® 400 MHz 1 MB 12W 1.180V 0-100°C 479 µFC-BGA RJ8053LC0051M Δ Intel processor numbers are not a measure of performance. Processor numbers differentiate features within each processor family, not across different processor families.

Intel® Celeron® Processor 440

The Intel® Celeron® processor 440Δ balances proven technology with exceptional value for embedded computing designs such as print imaging, gaming, interactive clients, and industrial automation. Featuring Intel® Intelligent Power Capability, it supports smaller, quieter, more energy-efficient embedded systems with improved performance over previous Intel Celeron processors.

Manufactured on 65nm process technology, the Intel Celeron processor 440Δ at 2.0 GHz offers 512 KB of L2 cache with a thermal design power (TDP) of 35 watts. Based on a new energy-efficient microarchitecture, this Celeron processor enables smaller and quieter embedded designs. It features Execute Disable Bit° (for built-in security support) as well as Intel® 64 architectureΦ (Intel® 64), enabling applications to access larger amounts of memory when used with appropriate 64-bit supporting hardware and software.

The Intel Celeron processor 440Δ is available in an LGA-775 package with integrated heat spreader. When combined with the Intel® Q45 Express Chipset, Intel® Q35 Express Chipset, Intel® Q965 Express Chipset or Intel® 3210 Chipset, the platform provides exceptional value with mid-range performance and reduced power.

Features and benefits

800 MHz front-side bus	Provides accelerated access to data from the processor core.
Intel® Wide Dynamic Execution	Improves execution speed and efficiency, delivering more instructions per clock cycle.
Intel® Smart Memory Access	Optimizes use of data bandwidth from the memory subsystem to accelerate out-of-order execution, keeping the pipeline full while improving instruction throughput and performance. Newly designed prediction mechanism reduces the time in-flight instructions must wait for data. Pre-fetch algorithms move data from system memory into fast L2 cache in advance of execution.
Intel® Advanced Digital Media Boost	Accelerates execution of Streaming SIMD Extension (SSE/2/3) instructions to significantly improve media boost performance on a broad range of applications. 128-bit SSE instructions are issued at a throughput rate of one/clock cycle, effectively doubling speed of execution over previous-generation processors.
Execute Disable Bit°	Enhances virus protection when deployed with supported operating system. Allows memory to be marked as executable or non-executable, allowing the processor to raise an error to the operating system, thereby preventing malicious code from infecting the system.
Intel® 64 ArchitectureΦ (Intel® 64)	Enables access to larger amounts of memory and provides flexibility for 32-bit and 64-bit applications. With appropriate supporting hardware and software, platforms supporting 64-bit computing can use extended virtual and physical memory.

Intel® Celeron® processor 440
Product number	Core speed	Front-side bus speed	L2 cache	Thermal design power	VID¹	Tcase(Max²)
HH80557RG041512	2.0 GHz	800 MHz	512 KB	35 W	1.000V - 1.3375V	60.4° C

Δ Intel® processor numbers are not a measure of performance. Processor numbers differentiate features within each processor family, not across different processor families.

Intel® Pentium® Processor E2160

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.

Δ Intel® processor numbers are not a measure of performance. Processor numbers differentiate features within each processor family, not across different processor families.

New Intel® Xeon® Processors

For Embedded Computing
The Intel® Xeon® processor is the solution for specific communication applications that require the highest levels of processing performance - such as web-serving, storage (NAS, SAN), search engines, telecommunications servers, network management, security, voice, and load balancing. When coupled with the Intel® E7500, Intel® E7501 or Intel® E7520 chipsets, the Intel Xeon processor provides high memory bandwidth, high memory capacity, and high I/O bandwidth. With 1M or 512K L2 Advanced Transfer Cache, the Intel Xeon processor along with the Intel E7500, Intel E7501 or Intel E7520 chipset creates a balanced platform that is ideal for delivering unparalleled price-performance, scalability and flexibility.

Low Voltage Intel® Xeon® Processors
The Low Voltage Intel® Xeon® processor has the added benefit of lower thermal design power making it ideal for thermally-sensitive, space-constrained environments. When coupled with the Intel E7500, Intel E7501 or the E7520 chipsets, the Low Voltage Intel Xeon processor delivers compelling value in a variety of network infrastructure applications including web-serving, search engines, telecommunications servers, network management, security, voice, and load balancing.

Intel® Xeon® Processors and Intel® Xeon® Processor with 800MHz System Bus

Core Speed (GHz) Chipsets Supported External Bus Speed (MHz) L2 Cache Thermal Design Power Voltage Tcase Package Product Number 3.2 Intel® E7520 800 1 MB 103.0W 1.2875 - 1.4V** † 604-pin FC-µPGA4 RK80546KG0881M 2.8 Intel® E7501 533 512 KB 74.0W 1.5V 75C 604-pin FC-mPGA-2p RK80532KE072512 2.4 Intel® E7501 533 512 KB 65.0W 1.5V 74C 604-pin FC-mPGA-2p RK80532KE056512 2.0 Intel® E7501 400 512 KB 58.0W 1.5V 70C 603-pin INT3 RN80532KC041512

** VID Range

Low Voltage Intel® Xeon® Processors and Low Voltage Intel® Xeon® Processor with 800MHz System Bus

Core Speed (GHz) Chipsets Supported External Bus Speed (MHz) L2 Cache Thermal Design Power Voltage Tcase Package Product Number 2.8 Intel® E7520 800 1 MB 55.0W 1.1125 - 1.2V** †† 604-pin FC-µPGA4 RK80546KG0721M 2.4 Intel® E7501 533 512 KB 40.0W 1.3V 81C 604-pin FC-mPGA-2P RK80532EE056512 2.0 Intel® E7501 400 512 KB 35.0W 1.3V 83C 604-pin FC-mPGA-2P RK80532EC041512 1.6 Intel® E7501 400 512 KB 30.0W 1.3V 81C 604-pin FC-mPGA-2P RK80532EC025512

NEW Intel® Xeon® Processors LV and ULV

The Intel® Xeon® processor LV and Intel® Xeon® processor ULV are members of Intel’s growing product line of multi-core processors. Each dual-core processor combines the benefits of two high-performance execution cores with intelligent power management features to deliver significantly greater performance-per-watt over previous single-core Intel Xeon processor-based platforms. The dual-core/dual-processor capabilities are ideal for a wide range of low-power communications and embedded applications.

Product Highlights

Product Number	Core Speed	Front-Side Bus Speed	L2 Cache	Thermal Design Power	VID	Tjunction	Package
LF80539KF0412M	2.0 GHz	667 MHz	2M	31W	0.825 – 1.275V	0-100° C	478 µFC-PGA
LF80539KF0282M	1.66 GHz	667 MHz	2M	31W	0.825V – 1.275V	0-100° C	478 µFC-PGA
LF80539JF0282M	1.66 GHz	667 MHz	2M	15W	0.825V – 1.2125V	0-100° C	478 µFC-PGA

Intel Xeon processor 5100 series

Intel® Xeon® processors for embedded computing platforms

Breakthrough performance, energy efficiency, extended lifecycle support and common socket Intel Xeon processor-based systems make them the ideal choice for compute-intensive embedded, storage and communications applications.

Lower thermal design power (TDP) and higher Tcase temperature Intel Xeon processor options are ideal options for low power consumption and/or compliance with the AdvancedTCA* form factor and NEBS level-3 thermal specifications*.

Platform configurations

These processors are validated with two different chipsets, providing a choice of flexible, dual-processor-capable platforms for a wide range of applications. These include storage area networks (SANs), network attached storage (NAS), routers, IP-PBX, converged/unified communications platforms, sophisticated content firewalls, unified threat management (UTM) systems, medical imaging equipment, military signal and image processing, and telecommunications (wireless and wireline) servers.

• Intel® 5000P chipset-based platforms are ideal for full performance and memory-intense applications by providing a maximum FB-DIMM memory capacity of 64 GB, 28 lanes of PCI Express* and accelerated I/O options.
• Intel® 5100 Memory Controller Hub (MCH) chipset-based platforms are ideal for bladed and dense bladed applications requiring less than 200 watts, including AdvancedTCA and NEBS-compliance.

Intel Xeon processor 5200 series

Intel® Xeon® processors for embedded computing platforms

Breakthrough performance, energy efficiency, extended lifecycle support and common socket Intel Xeon processor-based systems make them the ideal choice for compute-intensive embedded, storage and communications applications.

Lower thermal design power (TDP) and higher Tcase temperature Intel Xeon processor options are ideal options for low power consumption and/or compliance with the AdvancedTCA* form factor and NEBS level-3 thermal specifications*.

Platform configurations

These processors are validated with two different chipsets, providing a choice of flexible, dual-processor-capable platforms for a wide range of applications. These include storage area networks (SANs), network attached storage (NAS), routers, IP-PBX, converged/unified communications platforms, sophisticated content firewalls, unified threat management (UTM) systems, medical imaging equipment, military signal and image processing, and telecommunications (wireless and wireline) servers.

• Intel® 5000P chipset-based platforms are ideal for full performance and memory-intense applications by providing a maximum FB-DIMM memory capacity of 64 GB, 28 lanes of PCI Express* and accelerated I/O options.
• Intel® 5100 Memory Controller Hub (MCH) chipset-based platforms are ideal for bladed and dense bladed applications requiring less than 200 watts, including AdvancedTCA and NEBS-compliance.

Intel Xeon processor 5300 series

Intel® Xeon® processors for embedded computing platforms

Breakthrough performance, energy efficiency, extended lifecycle support and common socket Intel Xeon processor-based systems make them the ideal choice for compute-intensive embedded, storage and communications applications.

Lower thermal design power (TDP) and higher Tcase temperature Intel Xeon processor options are ideal options for low power consumption and/or compliance with the AdvancedTCA* form factor and NEBS level-3 thermal specifications*.

Platform configurations

These processors are validated with two different chipsets, providing a choice of flexible, dual-processor-capable platforms for a wide range of applications. These include storage area networks (SANs), network attached storage (NAS), routers, IP-PBX, converged/unified communications platforms, sophisticated content firewalls, unified threat management (UTM) systems, medical imaging equipment, military signal and image processing, and telecommunications (wireless and wireline) servers.

• Intel® 5000P chipset-based platforms are ideal for full performance and memory-intense applications by providing a maximum FB-DIMM memory capacity of 64 GB, 28 lanes of PCI Express* and accelerated I/O options.
• Intel® 5100 Memory Controller Hub (MCH) chipset-based platforms are ideal for bladed and dense bladed applications requiring less than 200 watts, including AdvancedTCA and NEBS-compliance.

Intel Xeon processor 5400 series

Intel® Xeon® processors for embedded computing platforms

Breakthrough performance, energy efficiency, extended lifecycle support and common socket Intel Xeon processor-based systems make them the ideal choice for compute-intensive embedded, storage and communications applications.

Lower thermal design power (TDP) and higher Tcase temperature Intel Xeon processor options are ideal options for low power consumption and/or compliance with the AdvancedTCA* form factor and NEBS level-3 thermal specifications*.

Platform configurations

These processors are validated with two different chipsets, providing a choice of flexible, dual-processor-capable platforms for a wide range of applications. These include storage area networks (SANs), network attached storage (NAS), routers, IP-PBX, converged/unified communications platforms, sophisticated content firewalls, unified threat management (UTM) systems, medical imaging equipment, military signal and image processing, and telecommunications (wireless and wireline) servers.

• Intel® 5000P chipset-based platforms are ideal for full performance and memory-intense applications by providing a maximum FB-DIMM memory capacity of 64 GB, 28 lanes of PCI Express* and accelerated I/O options.
• Intel® 5100 Memory Controller Hub (MCH) chipset-based platforms are ideal for bladed and dense bladed applications requiring less than 200 watts, including AdvancedTCA and NEBS-compliance.

Intel Pentium III Processors

The Pentium® III processor is ideal for high performance applied computing. It supports highend communications, transaction terminal, and industrial automation applications. While incorporating new features and improvements, the Pentium III processor remains software compatible with previous members of the Intel microprocessor family.
The Pentium III processor is validated with multiple chipsets for maximum flexibility and scalability. Combined with the Intel 840 chipset, the Pentium III processor provides high performance and bandwidth including dual processing and a second PCI bus. The 815, 815E, 810 and 440BX chipsets provide a scalable platform supporting a wide selection of Celeron® and Pentium III processors ranging from 66 to 133 MHz processor side bus speeds. The 440BX AGPset supports ECC for the highest data integrity and ISA for legacy I/O. The Intel 815, 815E and 810 chipsets utilize Intel Graphics Technology, an integrated graphics platform which provides more stability, higher quality graphics and a reduced OEM bill of materials cost.

Intel Core Duo Processor 3100 Chipset Development Kit

The Intel® Core™2 Duo processor L7400¹, Intel® Core™ Duo processor U2500¹ and Intel® 3100 chipset development kit offers an excellent platform for a variety of embedded and communications infrastructure applications. It enables outstanding instruction execution/watt while providing scalability with the Intel® Core™2 Duo processor and Intel® Core™ Duo processor. This dual-core processor combines the benefits of two high-performance execution cores with intelligent power management features to deliver significantly greater performance-per-watt over previous Intel® processors. Included in the kit: Development board Intel Core 2 Duo processor L7400¹, 1.50 GHz (installed) Intel Core Duo processor U2500¹, 1.20 GHz (supplied) CPU heat sink Two DDR2-PC3200 400 MHz 1 GB registered ECC DIMMs (total 2 GB memory) PCI Express* Gigabit NIC Drivers CD Pre-installed jumpers Firmware hub, socketed and flashed with the BIOS The Intel Core 2 Duo processor U7500¹ with 533 MHz front-side bus and Intel® Celeron® M processor Ultra Low Voltage 423¹ with 533 MHz front-side bus are also supported and can be ordered separately.

Intel® Core™ Duo Processors

The Intel® Core™ Duo processors are members of Intel's growing product line of multi-core processors. These dual-core processors combine the benefits of two high-performance execution cores with intelligent power management features to deliver significantly greater performance-per-watt over previous Intel® processors. Intel's 65nm process technology makes it possible to integrate two cores, along with many advanced features, in one physical package. Intel Core Duo processors meet the needs of a wide range of low-power embedded applications such as interactive clients and industrial automation equipment. While incorporating advanced processor technology, they remain software-compatible with previous 32-bit Intel® architecture processors. Product highlights Two complete execution cores in one processor package provide advancements in simultaneous computing such as multi-threaded applications and multi-tasking environments. Dual-core processing efficiently delivers performance while balancing power requirements. Two execution cores share a high-performance, power-optimized 667 MHz front-side bus to access the same system memory. To save power, address and data buffers are turned off when there is no activity. Enhanced Intel SpeedStep® technology allows a system to dynamically adjust processor voltage and core frequency, decreasing average power consumption and average heat production. Intel® Smart Cache Design allows two execution cores to share 2 MB of L2 cache, reducing FSB traffic and enhancing system responsiveness. Fully code compatible with existing Intel Architecture-based 32-bit application software.

Intel® Core™2 Duo Processors

Based on Intel's revolutionary Intel® Core™ microarchitecture, the Intel® Core™2 Duo processors were designed from the ground up delivering the best system level overall performance per watt. To meet the needs of the embedded platforms, there are multiple processors in offering: the new Intel® Core™2 Duo processor T9400, the Intel® Core™2 Duo SL9400, SL9380, SP9300, SU9300 and the Intel® Core™2 Duo processor E8400, E7400 based on industry-leading 45nm process technology, as well as the Intel® Core™2 Duo processor E6400, the Intel® Core™2 Duo processor E4300, the Intel® Core™2 Duo processors T7500 and T7400, the Intel® Core™2 Duo processors L7500 and L7400, and the Intel® Core™2 Duo processor U7500. These processors utilize the Intel® Core™ microarchitecture along with the following key 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. The 45nm process technology delivers a new super shuffle engine, which improves existing SSE instructions while enabling significant gains on the latest SSE4 instruction set. As a result, SSE4-optimized applications such as video editing and encoding in high-definition resolution will see additional performance improvements.
• Intel® Smart Memory Access improves system performance by optimizing the use of the available memory data bandwidth.
• Intel® Advanced Digital Media Boost accelerates a broad range of applications, including video, speech and image, photo processing and encryption.
• Intel® Advanced Smart Cache Provides a higher-performance, more efficient cache subsystem.

Features and benefits

Intel® Trusted Execution Technology¹	For safer computing is a versatile set of hardware extensions to Intel platforms, enabling security capabilities such as measured launch and protected execution. Hardware-based mechanisms help protect against software-based attacks to safeguard the confidentiality and integrity of data stored or created on embedded devices.
Intel® Virtualization Technology (Intel® VT)¹	Allows one hardware platform to function as multiple "virtual" platforms. Offers improved manageability, limiting downtime and maintaining worker productivity by isolating computing activities into separate partitions. Provides greater isolation and security between different applications and operating systems for added protection against corruption.
Intel® 64²	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 drive.
Execute Disable Bit³	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 drive. Digital Thermal Sensor (DTS) Accurately measures the maximum temperature on the die at any given time and enables efficient thermal control of the processor and platform.

Intel Core2 Quad Processor Q9400

The Intel® Core™2 Quad processor Q9400¹ is the first quad-core processor within the Intel® Core™2 processor product line with embedded lifecycle support. Based on Intel® Core™ microarchitecture, it features four complete execution cores within a single processor, delivering exceptional performance and responsiveness in multi-threaded and multi-tasking environments. As a result, 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.

The processor is validated with three different chipsets, providing a choice of flexible, quad-core-capable platforms for a wide range of embedded applications:

• Intel® Q45 Express chipset for applications such as point-of-sale (POS) terminals or digital signs in a networked retail environment. Chipset consists of the Intel® 82Q45 Graphics and Memory Controller Hub (GMCH) and Intel® I/O Controller Hub (ICH) 10 DO.
• Intel® Q35 Express chipset for embedded applications needing graphics, manageability, data protection and security such as interactive clients (i.e. POS terminals and interactive PCs), industrial control and automation, gaming, print imaging and network security appliances. Chipset consists of the Intel® 82Q35 GMCH and the Intel® ICH9 DO.
• Intel® 3210 chipset is a server-class chipset that includes Error Correcting Code memory for embedded applications needing high reliability, such as robotics on a factory floor, multi-function printers and network security applications.

Product highlights

• Multi-processing capabilities of the four complete execution cores deliver sharper images, provide faster response rates and support additional multi-media features - ideal for gaming arcade consoles, POS terminals and digital signage.
• In multi-tasking environments, where rendering and manageability as well as media and software applications can be distributed to run in parallel across each of the four cores, greater visualization and realism can be attained.
• The processor includes a Super Shuffle Engine to increase the speed of existing Intel® Streaming SIMD Extensions (SSE) algorithms optimized for graphics and multi-media processing. The engine significantly improves performance for the latest Intel® SSE4 instructions which enhance video editing and encoding used in many embedded applications.
• Intel® Wide Dynamic Execution enables delivery of more instructions per clock cycle to improve execution time and energy efficiency
• Intel® Intelligent Power Capability of the processor is designed to deliver more energy-efficient performance
• processor is optimized for multi-core processors, providing a higher-performance, more efficient cache subsystem
• Dual Intel® Dynamic Acceleration Technology improves four-core performance by utilizing power headroom of idle cores by dynamically boosting frequency of active cores

Product name	Core speed	Front-side bus speed	L2 shared cache²	Thermal design power	VID	Tcase (max)	Package
Intel® Core™2 Quad processor Q9400	2.66GHz	1333MHz	6MB	95W	0.85 -1.3625V	71.4º C	LGA 775

Intel Atom Processor N270

The Intel® Atom™ processor N270Ω, implemented in 45nm technology, is power-optimized and delivers robust performance-per-watt for cost-effective embedded solutions. Featuring extended lifecycle support, this processor offers an excellent solution for embedded market segments such as digital signage, interactive clients (kiosks, point-of-sale terminals), thin clients, digital security, residential gateways, print imaging, and commercial and industrial control. The processor remains software compatible with previous 32-bit Intel® architecture and complementary silicon.

This single-core processor is validated with the mobile Intel® 945GSE Express Chipset, consisting of the Intel® 82945GSE Graphics Memory Controller Hub and Intel® I/O Controller Hub 7-M. The chipset features power-efficient graphics with an integrated 32-bit 3D graphics engine based on Intel® Graphics Media Accelerator 950 architecture with SDVO, LVDS, CRT, and TV-Out display ports. It provides rich I/O capabilities and flexibility via high-bandwidth interfaces such as PCI Express,* PCI, Serial ATA, and Hi-Speed USB 2.0 connectivity.

Product highlights

• Intel Atom processor N270 at 1.6 GHz core speed with 533 MHz AGTL+ front-side bus and 2.5 watts thermal design power¹ (TDP)
• Intel hafnium-based 45nm Hi-k metal gate silicon process technology reduces power consumption, increases switching speed, and significantly increases transistor density over previous 65nm technology
• Intel® Hyper-Threading Technology² (two threads) provides high performance-per-watt efficiency in an in-order pipeline and increased system responsiveness in multi-tasking environments. One execution core is seen as two logical processors, and parallel threads are executed on a single core with shared resources
• Enhanced Intel SpeedStep® Technology reduces average system power consumption.

Intel EP80579 Integrated Processor Product Line

Complete SOC for security, communications, storage and embedded designs

Based on Intel® architecture, the Intel® EP80579 Integrated Processor product line is the first in a series of breakthrough system on-a-chip (SOC) processors, delivering excellent performance-per-watt for small form factor designs.

This fully compatible product line (Intel EP80579 Integrated Processor and Intel® EP80579 Integrated Processor with Intel® QuickAssist Technology) provides an outstanding combination of performance, power efficiency, footprint savings and cost-effectiveness compared to discrete, multi-chip solutions.

These integrated processors are ideal for small-to-medium business (SMB) and enterprise security and communications appliances (including VPN/firewall and unified threat management), transaction terminals, interactive clients, print and imaging applications, wireless and WiMax access applications, SMB and home network attached storage, converged IP PBX solutions, converged access platforms, IP media servers, VoIP gateways and industrial automation applications.

Intel EP80579 Integrated Processor Product Line

Based on Intel® architecture, the Intel® EP80579 Integrated Processor product line is the first in a series of breakthrough system on-a-chip (SOC) processors, delivering excellent performance-per-watt for small form factor designs.

This fully compatible product line (Intel EP80579 Integrated Processor and Intel® EP80579 Integrated Processor with Intel® QuickAssist Technology) provides an outstanding combination of performance, power efficiency, footprint savings and cost-effectiveness compared to discrete, multi-chip solutions.

These integrated processors are ideal for small-to-medium business (SMB) and enterprise security and communications appliances (including VPN/firewall and unified threat management), transaction terminals, interactive clients, print and imaging applications, wireless and WiMax access applications, SMB and home network attached storage, converged IP PBX solutions, converged access platforms, IP media servers, VoIP gateways and industrial automation applications.