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.

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.

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.

Features and benefits

400 MHz low power processor system bus	Supports 400 MHz system bus for single processor configurations.
Support for up to 2 GB of DDR 333/266/200 memory technology	Higher performance & flexibility.
Integrated high-speed USB 2.0	Support for USB 2.0 peripherals for 40X faster data transfer rate and backward compatible to support USB 1.0 devices.
AGP4X interface	High-bandwidth interface to provide flexible support for high performance mobile discrete graphics solutions.
Intel® Stable Image technology	Enables chipset HW changes, minimizing impact to IT SW image stability.
Dynamic input/output buffer disabling for processor system bus & memory	Reduces chipset power consumption by Intelligent activation or power-down of the processor system bus or memory.

Read more: http://petnol.blogspot.com/2009/05/intel-855pm-chipset.html#ixzz0cJ4SGJJt
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Intel's Atom processor was prominently displayed in systems at a conference in Japan. The chipmaker's next-generation X4500 graphics also made an appearance.

Small systems and circuit boards using the Atom processor appeared on the Web site PC Watch, which highlighted designs at a "Systems Expo" in Tokyo.

A host of small devices with the Atom processor are due in June. The 45-nanometer chip will compete with processors from Via Technologies such as the C7 and upcoming Isaiah processor.

Small PCs and computer systems using the low-power Atom processor included a small embedded computer from Japan-based Dux, a car "infotainment" system from Portwell Japan, and a motherboard for mobile internet devices from Sophia Systems.

Advantech was also showing an Atom-based circuit board as was Nagano. A 1.6GHz Atom-based board from Omron was on display too.

And that's not the only upcoming Intel chip that made an appearance. A board was shown with Intel's upcoming X4500 graphics silicon. The X4500 is slated to be part of the forthcoming GM45 ("Cantiga") chipset for the mobile Centrino 2 platform and the G45 ("Eaglelake-G") chipset for desktops.

Sharp got atomized Monday. The Japanese electronics maker along with Willcom announced the ultra-mobile Willcom D4 "communication device" based on Intel's Atom processor and Microsoft's Vista operating system.

Microsoft and Intel were also credited with development of the device, according to the Japanese-language release on the Sharp Web site.

The handheld-size device uses a 1.33GHz Z520 Intel Atom processor and runs Windows Vista Home Premium (with Service Pack 1). Other prototype devices based on similar designs--referred to as mobile Internet devices or MIDs--have also been shown running the Linux operating system.

With a separate headset, the device can also be used as a phone using Wilcom's Personal Handy-phone System (PHS) network, both Sharp and Willcom said.

The device weighs in at 470 grams (about one pound) and features a 5-inch sliding LCD (1024x600/262K colors) with an LED backlight, a 1.8-inch 40GB hard disk drive (Ultra ATA/100), 64-key QWERTY keyboard, a built-in camera, Wi-Fi, Bluetooth, a mirco SD card slot, and a USB 2.0 slot.

The D4's inclusion of a 40GB hard disk drive is an indicator that the device is meant to run Windows--because of the operating system's typically larger footprint--not Linux.

Intel Atom technology includes a single-chip with integrated graphics called the Intel System Controller Hub.

Atom will find its way into fit-in-your-pocket MIDs from Gigabyte, Toshiba, LG Electronics, Lenovo, and BenQ, among others. Netbooks (inexpensive, Internet-centric ultra-small notebook PCs) such as Asus's popular Intel-based Eee PC, MSI's Wind PC, and Clevo will also use the chip.

Willcom D4 is slated for a June release and is expected to be priced at 128,600 yen ($1,272).

While the marquee processor theme at IDF Shanghai is "milliwatts to petaflops," Intel is also set to offer a vision of universal connectivity.

The main theme for the event, which starts Wednesday, Beijing time, refers to "very, very big to very, very small and low power," according to Pat Gelsinger, senior vice president and co-general manager of Intel's digital enterprise group, speaking in a video.

"Milliwatts" refers to chips such as Atom, a tiny low-power, low-cost processor destined for ultramobile devices and low-cost desktops typically running either Linux or Windows XP. The first Atom chips will launch in June.

"Petaflops" refers to high-performance computing--what used to be called supercomputing. ("Peta" is quadrillion, or a thousand trillion; "flop" is floating-point operation.) Intel is targeting petaflop supercomputers that would compete with the fastest supercomputer in the world: IBM's Blue Gene/P machines.

Though more technology and product details will certainly emerge in the next two days in Shanghai, the main chip themes are already out there. Gelsinger spelled them out at briefing earlier this month.

The chip buzzwords are: Tukwila, a new quad-core chip with 2 billion transistors, a whopping 30MB of cache, and a new interconnect technology called QuickPath; Dunnington, a six-core chip for multiprocessor computers that can support four or more processors (in this case, each with six cores); Nehalem, a follow-on to the current "Penryn" processors, it is a new 45-nanometer chip microarchitecture due in the fourth quarter that scales up to eight cores; and Larrabee, a visual-computing architecture that uses many cores ("many" usually means many more than a typical quad-core computer).

In addition to Atom, the processor spotlight will likely fall on Nehalem and Larrabee. Nehalem is a relatively known quantity; Larrabee, a relatively unknown quantity. So interest should focus on the latter.

Nehalem boasts increased parallelism, better branch prediction (to move instructions more quickly through the instruction pipeline), and an on-chip memory controller for increased memory performance--what Intel calls "memory latency reduction." Something, by the way, Advanced Micro Devices already has in its chips.

Larrabee is a graphics processor scheduled for the 2009-2010 time frame. It will include a new vector instruction set to improve the performance of graphics and video applications. Larrabee will be compatible with Intel's popular x86 instruction set, theoretically making life easier for software developers.

On another front, Intel is evangelizing universal connectivity, always a problematic proposition, simply because it invariably promises more (sometimes much more) than it can deliver. Intel puts it this way: "Imagine a day when a single device small enough to fit in your pocket...knows your tendencies and preferences and can adapt and optimize its interfaces to match what you are doing at any point any time...Imagine a day when this device...can dynamically become a hybrid combination of other computing and multimedia devices in close proximity." You get the picture. Intel calls this "Carry Small, Live Large."

On a slightly more practical level, the Cliffside technology is being demonstrated from the Mobile Products Group; it enables a single Wi-Fi adapter to function like two independent Wi-Fi adapters. The hope is that this technology could sync your MP3 and video files without a USB cable, directly and wirelessly connecting your notebook to your TV to view HD movies.

The LGA1366 interposer (from ASSET InterTech) enables design, test and field repair engineers to access the debug port on the Intel Xeon Processor 5500 Series and Core i7 processors (based on Intel’s new Nehalem microarchitecture) after the processors have been placed on a circuit board. The LGA1366 interposer’s standard Intel debug port (XDP) header connector enables third-party CPU emulation tools to access the Intel Xeon processor 5500 series and Core i7 processor debug ports, even when a XDP header is not provided on the circuit board. The LGA1366 interposer is available now with pricing starting at $2,900.

The LGA1366 interposer features a direct interface between the CPU on an assembled circuit board and PCT on the ScanWorks platform. The non-intrusive PCT test technology can apply tests, diagnostics, and debug routines to the entire circuit board through the Intel processor without placing physical probes anywhere on the board. Unlike intrusive test technologies like ICT, which require expensive bed-of-nails fixtures for testing circuit boards, PCT on ScanWorks is a non-intrusive technology that relies on software. It tests the electrical integrity of a board and applies functional tests at processor speeds through the CPU’s debug port.

In addition to the enhanced test coverage that ASSET’s interposers and top-side adapters make possible in manufacturing, they can also be applied very effectively in repair operations. Some circuit boards are broken to the point where they cannot launch an operating system (OS) or even the kernel of the OS, the Basic Input/Output System (BIOS). Since most functional test techniques require a running BIOS or OS, traditional functional tests cannot be performed on these circuit boards and they cannot be repaired. Fortunately, ScanWorks’ PCT tests do not require an OS or BIOS. As a result, the precise diagnostics of PCT can locate faults and failures on otherwise dead circuit boards. The manufacturer can then repair these boards and recoup some of the costs associated with them.

Cost and size considerations often cause many circuit board manufacturers to either remove the circuitry required to access the processor’s debug port or to remove the connectors on the circuit board which would link to this circuitry. ASSET’s interposers and top-side adapters overcome this problem for the purposes of the more cost-effective non-intrusive board test technologies such as processor-controlled test (PCT) on ASSET’s ScanWorks platform for embedded instrumentation. In addition to providing a lower cost-of-test, non-intrusive board test (NBT) also offers improved test coverage over the older intrusive test technologies such as in-circuit test (ICT).