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.
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Friday, April 17, 2009
The Intel® Pentium® dual-core processor delivers great performance, low power enhancements, and multitasking for embedded computing. The Intel® Pentium® dual-core 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 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.
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.
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.
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.
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® 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.
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.
The Intel® Celeron® M processor family is the next generation of mobile value processors, providing exceptional performance and value combined with low power for thermally sensitive embedded and communications applications. These processors offer ideal solutions for small-to-medium business and enterprise communications, storage appliances, and value-oriented embedded devices like Point Of Sale, kiosks and ATMs.
With an advanced microarchitecture and core frequency of 2.0 GHz and 2.5 GHz, the Intel® Celeron® processor is ideal for scalable performance embedded computing, including communications, transaction terminal and industrial automation applications. While incorporating new features and improvements, it remains software compatible with previous members of the Intel® microprocessor family.
From point-of-sale (POS) terminals and retail kiosks to advanced networking equipment, Pentium® processors with MMX™ technology enable developers of embedded systems to step up to new levels of performance. To make these designs even easier and more flexible, Intel is making the performance advantages of MMX technology available at a choice of integration levels
The Intel® Atom™ processor is Intel's smallest processor, built with the world's smallest transistors and manufactured on Intel's industry-leading 45nm Hi-k Metal Gate technology. The Intel Atom processor was purpose-built for simple, affordable, netbooks and nettops.
Intel Atom processor-based netbooks and nettops offer both an easy-to-use mobile device with simple interfaces and targeted performance for a good online experience. They are rugged and compact in design, and offer the freedom and flexibility of wireless connectivity¹.
Great for Internet, these devices are an affordable option for education, photo and video viewing, social networking, voice over IP, e-mail, messaging, browsing, and numerous other Internet activities and basic applications
Intel® I/O Processors
Many storage, networking, and embedded applications require fast I/O throughput for optimal performance. Intel® I/O processors allow servers, workstations and storage subsystems to transfer data faster, reduce communication bottlenecks, and improve overall system performance by offloading I/O processing functions from the host CPU.
The table below provides a quick overview of the Intel I/O processor family. The Intel® IOP34x family of processors, with Intel XScale® microarchitecture, builds on more than a decade of leadership in
Many storage, networking, and embedded applications require fast I/O throughput for optimal performance. Intel® I/O processors allow servers, workstations and storage subsystems to transfer data faster, reduce communication bottlenecks, and improve overall system performance by offloading I/O processing functions from the host CPU.
The table below provides a quick overview of the Intel I/O processor family. The Intel® IOP34x family of processors, with Intel XScale® microarchitecture, builds on more than a decade of leadership in
Industry-leading performance, flexibility, and ease-of-use
Built on a high-performance fully programmable architecture, Intel network processors offer the speed, flexibility, and ease-of-use/reuse you need to accelerate time-to-market, extend time-in-market, and to enable a broad range of services from the customer premises to the core of the network
Intel486™ SX Embedded Processor Overview
The embedded Intel486™ SX processor provides high performance to 32-bit, embedded applications that do not required a floating-point unit. The embedded Intel486 SX processor is binary compatible with the Intel386™ and earlier Intel processors. Compared with the Intel386 processor, it provides faster execution of many commonly used instructions. It also provides the benefits of an integrated 8-Kbyte, write-through cache for code and data. Its data bus can operate in burst mode, which provides up to 106Mbps transfers for cache-line fills and instructions prefetches. Two component packages are available: a 196-Lead Plastic Quad Flat Pack (PQFP), and a 168-Pin Grid Array (PGA), both available for 5-volt designs. Both products operate at CLK frequencies up to 33MHz.
The embedded Intel486™ SX processor provides high performance to 32-bit, embedded applications that do not required a floating-point unit. The embedded Intel486 SX processor is binary compatible with the Intel386™ and earlier Intel processors. Compared with the Intel386 processor, it provides faster execution of many commonly used instructions. It also provides the benefits of an integrated 8-Kbyte, write-through cache for code and data. Its data bus can operate in burst mode, which provides up to 106Mbps transfers for cache-line fills and instructions prefetches. Two component packages are available: a 196-Lead Plastic Quad Flat Pack (PQFP), and a 168-Pin Grid Array (PGA), both available for 5-volt designs. Both products operate at CLK frequencies up to 33MHz.
Intel486™ SX Embedded Processor Overview
The embedded Intel486™ SX processor provides high performance to 32-bit, embedded applications that do not required a floating-point unit. The embedded Intel486 SX processor is binary compatible with the Intel386™ and earlier Intel processors. Compared with the Intel386 processor, it provides faster execution of many commonly used instructions. It also provides the benefits of an integrated 8-Kbyte, write-through cache for code and data. Its data bus can operate in burst mode, which provides up to 106Mbps transfers for cache-line fills and instructions prefetches. Two component packages are available: a 196-Lead Plastic Quad Flat Pack (PQFP), and a 168-Pin Grid Array (PGA), both available for 5-volt designs. Both products operate at CLK frequencies up to 33MHz
The embedded Intel486™ SX processor provides high performance to 32-bit, embedded applications that do not required a floating-point unit. The embedded Intel486 SX processor is binary compatible with the Intel386™ and earlier Intel processors. Compared with the Intel386 processor, it provides faster execution of many commonly used instructions. It also provides the benefits of an integrated 8-Kbyte, write-through cache for code and data. Its data bus can operate in burst mode, which provides up to 106Mbps transfers for cache-line fills and instructions prefetches. Two component packages are available: a 196-Lead Plastic Quad Flat Pack (PQFP), and a 168-Pin Grid Array (PGA), both available for 5-volt designs. Both products operate at CLK frequencies up to 33MHz
IntelDX2™ and IntelDX4™ Processor Family
The IntelDX2™ and IntelDX4™ processors bring the highest level of performance in the Intel486 family, created by such combined features as speed-multiplying technology, on-chip integration of Level I unified code and data cache, memory management unit with paging, and floating-point unit. The clock-multiplier allows the processor to operate at frequencies higher than the external memory bus. The integer unit uses RISC design techniques to provide single-clock-cycle execution of common instructions and general purpose registers for manipulating 32-bit addresses and data. The 8K on-chip Write-Through unified cache on the speed-doubled IntelDX2 processor, and the 16K on-chip Write-Back Enhanced unified cache on the speed-tripled IntelDX4 processor maintains the one-clock-per-instruction execution rate. Intel 486 processors provide support for multiprocessing systems. Support for multi-level caches reduces bus utilization, allowing multiple Intel486 processors to share a single memory bus. For the highest level of performance, choose the IntelDX2 and IntelDX4 processors.
The IntelDX2™ and IntelDX4™ processors bring the highest level of performance in the Intel486 family, created by such combined features as speed-multiplying technology, on-chip integration of Level I unified code and data cache, memory management unit with paging, and floating-point unit. The clock-multiplier allows the processor to operate at frequencies higher than the external memory bus. The integer unit uses RISC design techniques to provide single-clock-cycle execution of common instructions and general purpose registers for manipulating 32-bit addresses and data. The 8K on-chip Write-Through unified cache on the speed-doubled IntelDX2 processor, and the 16K on-chip Write-Back Enhanced unified cache on the speed-tripled IntelDX4 processor maintains the one-clock-per-instruction execution rate. Intel 486 processors provide support for multiprocessing systems. Support for multi-level caches reduces bus utilization, allowing multiple Intel486 processors to share a single memory bus. For the highest level of performance, choose the IntelDX2 and IntelDX4 processors.
Intel® Xeon® Processors
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.
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.
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