Intel to intro Xeon 7300 processor

The Intel/AMD smackdown continues. On Sept. 5, Intel Corp. will launch the new four-socket, quad-core Xeon 7300 Series -- just five days before Advanced Micro Devices Inc.'s quad-core processor Barcelona is also expected to laun
Intel has not released details about its new four-socket, quad-core chip, but it confirmed that the release was imminent. "This quarter will see the launch of Intel's latest MP [multiprocessor] platform code-named Caneland," said Intel spokesperson Nick Knupffer in a July 24 blog. Shipments to OEMs began in June of this year. The Xeon 7300 multiprocessor, which is code-named Tigerton, and the Clarksboro chipset make up the Caneland platform.
In the same blog, Kirk Skaugen, Intel vice president and general manager of the Server Products Group, discussed Caneland on video. According to Skaugen, Intel's four-socket, quad-core processor doubles the performance of Intel's previous multiprocessor offering on some workloads. The Intel Xeon 7300 exhibited clock speeds of 2.66 GHz during trial runs of real applications at this summer's Computex Taipei International Technology Show and Hewlett-Packard Co.'s Technology Forum & Expo. ch

Introducing the Intel® Atom™ processor

Atom. One of the smallest things in our universe, and a very appropriate name for Intel's new line of processors Today, Intel unveiled the new brand, Intel® Atom™ processor, and a brand extension to the Intel Centrino® brand family: Intel Centrino® Atom processor technology. Soon, you will see the Intel Centrino Atom brand on handheld devices that can bring an amazing internet experience in a device that fits in your pocket. You'll see the Intel Atom processor powering a growing category of devices aimed at delivering affordableThese new engines for new categories of devices are really special because they were designed from the ground-up. These aren't a desktop PC processor modified for low power. The new Intel Atom brand family was designed for a mix of performance, low power usage, size and affordability. Customers will be able to purchase an Intel Atom processor that maximizes any one of those 4 attributes, depending on their targeted device. To make this a reality, Intel used its cutting-edge manufacturing technology: 45 nanometer, Hi-k metal gate technology. Sounds like science fiction, doesn't it? In simple terms, this is the same manufacturing technology that is used to produce Intel's latest desktop, notebook and server processors. Enough performance to deliver an amazing internet experience in your pocket. Low power. Built on world class manufacturing technology using the world's smallest transistors. A new miracle in miniaturization: The Intel® Atom™ processor. Brian Fravel Intel Director of Marketing, Brand Strategy

Intel's Ultra-Portable Atom: Unveiled

Do you remember the original Pentium 4? It launched at 1.5 GHz and gave us our first bittersweet taste of the NetBurst microarchitecture, which Intel would use to replace the P6 design.When the Pentium 4 began its life, Intel manufactured the chips on a 180 nm node. The 42 million transistors that went into those first Pentium 4s - internally referred to as Willamettes - occupied a die no less than 217 square millimeters. Keep those figures in mind throughout our overview of Intel’s newest mobile processor and platform. And don’t feel too old; eight years seems like a lifetime, when you’re talking tech.

Intel is formally announcing a brand new processor today that it hopes will drive the next generation of mobile Internet devices. Perhaps you’re already familiar with the MID concept. Last year, Intel took the wraps off of its McCaslin platform, a seldom-discussed proof-of-concept that never really took off. Nor was it meant to. McCaslin employed Intel’s A100/A110 processor built on 90nm process technology. Those CPUs were derived from Intel’s Pentium M efforts. And while they enabled respectable compute muscle at 3W, imagine running Windows Vista on an 800 MHz desktop. Or don’t. It’s a painful thought. Nevertheless, the A100 and A110 are x86 Intel chips that go into real products

Intel Skulltrail Unleashed: Core 2 Extreme QX9775 x 2

Intel started slowly leaking information about an ultra high-end enthusiast platform dubbed Skulltrail at right about the same time that AMD’s now defunct QuadFX platform was set to be released. Over time we learned that Skulltrail, like QuadFX, would be a dual-socket platform that could accommodate a pair of Intel’s fastest quad-core processors, for a grand total of eight execution cores in one desktop system. But other details regarding the platform were somewhat scarce to say the least.
As time progressed, however, Intel was more and more forthright with information regarding Skulltrail. Soon we learned that the platform would require DDR2 FB-DIMMs and that it would officially support a 1600MHz front side bus frequency. Then later Intel disclosed that Skulltrail would support not only ATI’s CrossFire multi-GPU technology, but NVIDIA’s SLI as well. Then at IDF last year we were treated to our first glimpse of a fully assembled Skulltrail system that featured dual 3.2GHz quad-core processors and were even privy to some preliminary benchmark results. And finally, at this year’s Consumer Electronics Show, Intel showed off a couple of Skulltrail-based rigs complete with air and water-cooled processors running at a cool 4GHz. At this point we knew Skulltrail was almost ready for prime time.
After meeting with Intel at CES, representatives informed us that Skulltrail would be available for testing and evaluation in just a few weeks. And they were true to their word. We’ve been banging on a Skulltrail setup complete with a matched pair of 3.2GHz Core 2 Extreme QX9775 processors and DDR2-800 FB-DIMMs for a couple of weeks now and will be presenting the results of our testing for you all right here. Strap yourself in and prepare for the eventual feelings of CPU envy that will ensue. Skulltrail is a beast in every sense of the word...

Intel Core 2 Quad Q9300 Processor

Intel’s Core 2 Quad Q9300 has some rather large shoes to fill. This newly shipping, relatively low-cost (~$270) quad-core processor from Intel is a replacement for their long-standing price to performance champ, the Core 2 Quad Q6600. The Q6600 was the first quad-core in Intel’s arsenal which was actually affordable, and even today, it remains one of the best values on the market. Not only is the Core 2 Quad Q6600 inexpensive for a quad-core at around $230, but it is extremely overclockable and provides a significant amount of computing power for the dollar. Core 2 Quad Q6600’s are still in high-demand – a trend which is likely to continue until Intel physically removes from them from the market.
Like we said, rather large shoes to fill. Luckily, the Core 2 Quad Q9300 processor has some impressive new features under the hood along with a higher clock speed, all at a similar price point as the Q6600. As the Core 2 Quad Q9300 utilizes Intel’s new 45nm manufacturing technology (as opposed to 65nm of the Q6600), potential buyers will be expecting the Q9300 to perform better and produce less heat compared to its predecessor – certainly a difficult task but one which we believe Intel can meet. We’ve already seen what Intel’s 45nm manufacturing technology is capable of with its dual-core “Wolfdale” architecture, and if Intel can bring the same benefits to the quad-core market as it did for dual-cores with “Wolfdale”, Intel will be in good shape.
The Q9300 is coming to market at an interesting time. Intel has struggled somewhat to get their mainstream 45nm quad-core components on to market, and the Core 2 Quad Q9300 represents Intel’s first real attempt at holding on to the low-cost quad-core market against a newly resilient AMD. With AMD’s new lineup of quad-core Phenom X4 B3 processors bringing similar features at a lower price point than the Q9300, Intel may have to work a little harder in order to make the Q9300 a success. Let's see if they're up for the challenge.

Intel Pentium E2140 Dual Core Processor

Intel has spent millions making their "Core" brand synonymous with high performance processing. In these days of the Core Duo, Core 2 Duo, Core 2 Quad, and Core 2 Extreme, it’s pretty easy to find a Core microarchitecture-based processor to match nearly any possible price point. The performance levels of the Core 2 product lineup have been so dominating that Intel really didn’t have to spend a penny if they didn’t want to, although big time marketing campaigns are good for converting those who just want the latest and greatest and don’t necessarily read enthusiast sites like ours here.
Despite the Core 2 being a successful lineup from top to bottom, Intel’s Pentium product name is still a valuable asset. Intel’s last Pentium-branded product launches happened mid last year, with the “Presler” core based Pentium-D processors hitting the market at speeds in excess of 3.0 GHz. Soon afterwards, the first generation Core 2 processors hit the streets and (more or less) dominated the Pentium-D in terms of performance, all the while consuming far less power and creating much less heat. From that point forward, many had figured the Pentium name would be essentially dead, simply living out its final days as inventory in warehouses until the Core 2 made it obsolete.
Apparently, this is not what Intel had in mind. A while back, we started to hear rumblings of a “new” Pentium processor. While the Pentium had always targeted the performance crowd, it appeared that Intel would be taking the name in a new direction, pushing it to the value sector where their Celeron brand typically resided. As the Celeron name does not have a strong following, replacing it with an aging (but still well known) brand like Pentium does make quite a lot of sense. The question is, what really is this “new” Pentium processor? Is this a new architecture, or simply a new chip based on something we’ve already seen?
The answers to those questions are finally here, as the first “new” Pentium processor has arrived and is running in our lab. This new processor is shipping at two speeds, 1.6 GHz (E2140) and 1.8 GHz (E2160), is based on a dual-core architecture, and ships in the same powder-blue box we’ve come to associate with the Core 2 Duo.

Dual-core Intel Conroe processors

Three years ago, AMD released a line of processors with the new A64 architecture and immediately won a technology advantage. Athlon64 processors ran at much lower clock speeds than Intel Pentium4 but demonstrated high higher performance. That was especially seen in gaming applications, i.e. in the field which is most common for home-based users. The advantage in speed was won due to the shorter pipeline as well as the integrated memory controller. Intel was struggling to the very best of its power continuously raising the clock speeds of it processors. But ... stopped the race having finally not achieved the 4 GHz threshold. Further rise in the clock speeds was simply impossible: the heat emission went beyond all the reasonable boundaries.
To be fair, we should note that Intel's latest processors produced following the 65 nm process technology smoothed the problem of power consumption a bit. But Intel failed to grab the performance crown. Therefore, AMD was gradually expanding its market share, and in mere three years it overcame the ~25% barrier. In fact, that is the maximum possible market share for AMD because of the lack of production capacities.
Of course, Intel was strongly against this situation. And some time ago there appeared first rumors on the forthcoming new processor architecture. There also appeared first specimens - I mean mobile CPUs Pentium-M on the Dothan core. Manufactured following the 90-nm process technology and running at ~ 2.5 GHz clock speeds, these processors showed a very high operating speed comparable to to that of top-end desktop AMD and Intel processors. Pentium-M proved so highly attractive that some companies prepared matching solutions for desktop systems.
A bit later though, there appeared first information on processors built on the Intel Core 2 Duo architecture, which made the interest to Pentium-M gradually fade. Roughly speaking, the Core 2 Duo architecture is a logical evolution of the Pentium Pro architecture with the use of all Intel's technologies and developments. In particular, the new processors offer a rather short pipeline (14 stages) and are able decoding and executing up to instructions per cycle. For more detail of the Core 2 Duo architecture, read our previous materials. Today, we are focusing on the practical aspects of operating the new processors.

Intel Demos Dual-Core Xeon Processors

The world’s most influential manufacturer of microprocessors, Intel Corp., last week demonstrated servers running the company’s dual-core processors for dual-processor and multi-processor machines. The company said it would provide “thousands of seed systems” containing dual-core Xeon processor to software and hardware developers this year in order to ensure that the infrastructure takes advantage of dual and multi-core chip designs. Commercial shipments of the dual-core Intel Xeon processors are scheduled for 2006.
At its Intel Spring Analyst meeting in New York on Thursday, Abhi Talwalkar, general manager of Intel’s Digital Enterprises Group showed off two working servers running upcoming dual-core implementations of Xeon code-named Dempsey and Paxville, respectively, claims a report at TechWeb web-site.
Intel Xeon processors for 2-way servers or workstations code-named Dempsey is a part of the company’s server platform code-named Bensley, which is based on Blackford chipset. The platform will support FB-DIMM memory, PCI Express bus and is expected to support Intel’s Hyper-Threading and Active Management Technology. According to Intel, first shipments of the Bensley platform development kit were scheduled for mid-Q2 – late-Q2 2005.
Intel Xeon MP processor internally called Paxville for multiprocessor servers is compatible with Truland platform infrastructure based on E8500 core-logic.
“This processor just arrived in terms of silicon fairly recently… We’re going to be sampling to OEMs so they can start their qualification cycles. Remember, this processor drops into systems that are shipping today, so it’ll take much less time to get them running than if you were building brand new systems. We’ll ship seed systems to the marketplace in the second half of this year. We’ll have an OEM ramp-up in early 2006,” Abhi Talwalkar is reported to have said.
In contrast to Intel Corp., its arch-rival Advanced Micro Devices has been shipping its AMD Opteron 800-series dual-core processors for MP servers for a couple of weeks now and aims to ship a lineup of dual-core products for 1P, 2P servers as well as desktops by the end of the quarter.
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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, 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.

Intel® Pentium® Processors with MMX technology

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.
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The upgrade path for embedded Intel® architecture includes longer life cycle support for the 200 MHz and 233 MHz Pentium processors with MMX technology.
Intel offers 166 MHz and 266 MHz Low-power Pentium processors with MMX technology. Both are available in thin HL-PBGA packaging, as well as PPGA packaging. The 166 MHz Pentium processor is also available in extended temperature range -40ºC to +115ºC.
Also, the Intel 430TX PCIset now supports synchronous DRAM [SDRAM] in embedded applications.

Intel® Core™2 DuoIntel® Core™2 Quad Series

Intel® CoreTM2 Duo Processor E46002.4GHz, 2MB Cache, 800 MHzIntel® 945GCPE Motherboard(LAN + VGA + Sound) Built-in512MB DDR II RAM160GB SATA Hard Disk Drive56K ModemCOMBO Drive17" Flat monitor 773RFMultimedia KeyboardOptical Scroll MouseThermally Advantage CasingMicrosoft Windows XP Professional (Optional)Microsoft Windows Vista Business

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.
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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® Pentium® 4 Processors

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® M processor

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.
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Embedded Intel® Architecture Chipsets
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Article: Managing Processor Power Consumption
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® 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® Q35 Express or Intel® Q965 Express chipset, the platform provides exceptional value with mid-range performance and reduced power.

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.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 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.

Intel® Xeon® Processor 5200 Sequence

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*.

Intel® Xeon® Processor 5300 Sequence

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*.

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.

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.

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, SP9300, SU9300 and the Intel® Core™2 Duo processor E8400 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® Atom™ Processor Z5xx Series

The Intel® Atom™ processor Z5xx series delivers the benefits of Intel® architecture for small form factor, thermally constrained and fanless embedded applications. Implemented in 45nm technology, these power-optimized processors provide robust performance-per-watt in an ultra-small 13x14 mm package.
Featuring embedded lifecycle support, the Intel Atom processors are ideal for many embedded market segments such as in-vehicle infotainment, medical, interactive client (kiosks, point-of-sale terminals), gaming and industrial control. It remains software compatible with previous 32-bit Intel® architecture and complementary silicon.
These single-core processors are validated with the Intel® System Controller Hub (SCH) US15W, which integrates a graphics memory controller hub and an I/O controller hub into one small 22x22 mm package. This low-power platform has a combined thermal design power under five watts.

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® IXP425 network processor

Intel® IXP425 network processor is a highly integrated, versatile single-chip processor that can be used in a variety of products that need network connectivity and high performance to run their unique software applications. The Intel IXP425 network processor combines integration with support for multiple WAN and LAN technologies in a common architecture designed to meet requirements for high-end gateways, Voice over IP (VoIP) applications, wireless access points, SME routers, switches, security devices, Mini-DSLAMs (Digital Subscriber line Access Multiplexers), xDSL line cards, industrial control and networked imaging applications.

High-Speed Item Processors

Unisys offers you the most dynamic and powerful document processors available today with the NDP 850, 1150, and 2000.

These high-speed transports feature Intelligent Speed Selection that enables operators to maximize document throughput, by selecting the optimal transport speed based on the type of work being processed.