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Wednesday, December 16, 2009

Intel® Xeon® Processor 5000/3000 Sequence

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 Advanced* 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 wire line) 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.

PRODUCT INFORMATION
• Intel® Xeon® Processor 5100 Series for Embedded Computing Platforms Product Brief (PDF 583KB)
• Intel® Xeon® Processor 5300 Series for Embedded Computing Platforms Product Brief (275KB)
• Intel® Xeon® Processor 5200/5400 Series for Embedded Computing Platforms Product Brief (PDF 303K

Intel® 186 Processors

Posted by The Great Trader at 8:24 AM 0 comments
Intel 186 Standard Processor Family




Intel 186 XL standard family is available in CHMOS, 8-bit external (188) and 16-bit external (186) versions, offering a wide variety of cost/performance alternatives for embedded designs. The 80C186/188XL is pin-for-pin compatible with the previous NMOS 80186/188 while adding an enhanced feature set and static operation. The high performance CHMOS process allows the 80C186/188XL to run at twice the clock rate of the previous NMOS 80186/188 while consuming less than one quarter the power. Significant functionality is included in this highly integrated product. The flexible peripheral set includes DMA, Timers, Interrupt Controller, Memory Refresh, Chip Selects, Power Save and a Direct Numerics Interface.

Features and benefits


16-bit static CPU (XL operating at 25 MHz) High Performance > 1 MIP
8086 instruction set Use PC for easy software development and debugging
1 Mbyte Addressing Large address space (for programs and data) Can also use bank switching for > 1 Mbytes
On-Chip Peripherals High integration enables low-cost and low chip count designs
8-bit external bus available Lower memory and system cost
Multiple Packaging options 68L (LCC, PLCC, PGA) and 80L (QFP, SQFP) Supports varied system requirements
CMOS inputs and outputs Improved noise margins
Direct numeric’s interface (80C187) Increased computing power



Intel 186 Enhanced Processor Family




Intel modularized the core architecture of the Intel® 186 in order to better provide expandable peripheral functionality. The 186 Ex family is based on an improved, static, 1 micron design. All of the enhanced products run at 25 MHz. In addition, the 80C186Ex/C188Ex processors have a common set of base peripherals beneficial to many embedded applications. The Ex processors all support a standard numeric interface, an interrupt control unit, a chip-select unit, a DRAM refresh control unit, a power management unit, and three 16-bit timer/counters.

The 186 Ex family was designed with a number of objectives, the most important being high integration, low power consumption and a small form factor. The first objective is met by offering different Ex family members with varied peripheral sets. The variety of peripheral combinations available allows a designer to choose a "best fit" for their application. The second objective, low power, is met by offering a fully static device that operates down to 2.9-3.0 volts. The final objective, small form factor, is addressed by the Shrink Quad Flat Pack (SQFP) package.

The idle mode allows the device to shut off the CPU clock, leaving all integrated peripherals active. Idle mode lowers processor current consumption by approximately 40 percent. Power down mode goes a step further, the clock input to the entire processor is disabled reducing device current consumption to transistor leakage (micro amps).

Low voltage operation offers numerous benefits to the system designer such as decreased power consumption, less heat generation and less noise. The 13 MHz versions of the 186 Ex processors are available in 3.3V versions which operate down to 2.9 volts. The 16 MHz versions as well operate at 3.3V down to 2.9 volts. The combination of power management functionality and optional low voltage operation make the 186 Ex family processors ideal for power sensitive applications.

The small form factor is a major benefit of the SQFP package. The small package allows high integration while using minimal area. Another benefit inherent in smaller packages is reduced noise. The device lead frame that carries signals from the die to the package pins is smaller in the SQFP than it is in packages like QFP or PLCC. The decreased lead frame size decreases noise amplitude on outputs. The decreased inductance resulting from the small package and the elimination of a device socket reduce output noise. Lastly, combining the SQFP package and integration of the 186 Ex processors with low voltage operation offers an ideal solution for portable, low power, battery operated applications.

Features and benefits


3 Stage Power Management Unit Efficient power consumption
3.0 Volt Versions Enables portable, battery powered designs
Watch Dog Timer (EC only) Ensures system integrity in hostile environments
Serial Channels (EB/EC only) Facilitates interprocessor communication and modem interface
I/O Ports (EB/EC only) Ability to communicate externally via standard protocols



80C186EA/80C188EA




• Power Management
• Optional 3 Volt operation with the 80L186EA/80L188EA
• Standard peripheral set
• Packaging Options: 68L (PLCC) and 80L (QFP, SQFP)
• PB free package

The 80C186EA offers a simple upgrade from the standard Intel 80C186XL processor for power sensitive applications. The processor offers all of the functionality of the standard 80C186XL plus an integrated power management unit.

The low power consumption and power management capabilities of the 80C186EA allow designs previously requiring a bulky power supply to become battery operated. Battery operation opens new possibilities for portable/mobile designs. To achieve extremely low power consumption, the 80L186EA also operates down to 2.7 Volts at frequencies up to 13 MHz.

80C186EB/80C188EB




• 2 Serial Channels
• 2 Multiplexed I/O ports
• Enhanced C186/C188 chip selects
• Power Management
• Optional 2.9 and 3.3 Volt operation with the 80L186EB/80L188EB
• Packaging Options: 84L (PLCC) and 80L (QFP, SQFP)
• PB free package

The 80C186EB takes the base set of peripherals of the Ex family and adds two integrated serial ports. The ports support both synchronous and asynchronous communications. The serial channels make inter-processor and display communications simple.

The EB also implements an enhanced chip-select unit and 2 multiplexed I/O ports. The enhanced chip-select unit offers 10 general chips selects, each with the ability to address up to 1 megabyte. This enhanced unit enables application to implement memory bank switching to expand the 80C186 one megabyte address space. The I/O ports allow the application to do basic functions such as scanning keypads for input. The ports can also be implemented to control system power consumption, disabling unneeded components.

The serial ports, I/O capabilities and enhanced chip-selects make the EB an excellent processor for portable data acquisition or communication applications. The power management modes and optional low voltage operation make the 80L186EB ideal for battery operated systems.

80C186EC/80C188EC




• 4 DMA and 2 Serial Channels
• Watch Dog timer
• 22 I/O pins
• Enhanced C186/C188 chip selects
• Power Management
• Optional 3.3 volt operation with the 80L186EC/80L188EC
• Standard peripheral set
• Packaging Options: 100L (PQFP), 100L (QFP) and 100L (SQFP)
• PB free package

The 80C186EC is the highest integration member of the 80C186Ex processor family. All of the functionality of the 80C186EB is included with the addition of a 32-bit watch dog timer, 4 DMA channels, two enhanced 82C59 compatible interrupt controllers, and an additional I/O port. Even with the increased integration, the 80C186EC processor consumes no more power than the 80C186EB.

The 80C186EC allows the serial ports to make DMA requests, avoiding the interrupt latency required to service serial interrupt. The increased data throughput allows rapid data acquisition and processing. The enhanced chip-select unit also offers the possibility of increased data storage capacity. The very high integration and low power consumption of the 80C186EC offer a simple solution for portable, low power applications focused on data acquisition and processing. Low voltage operation is also a significant benefit to extremely power-sensitive designs.

Development tool support




Broad portfolios of tools are available through Intel and multiple Intel tool vendors. A number of debug products; real-time kernels, compilers and in-circuit emulators are available for the 186 product family.

Intel® Atom™ Processor


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 net tops.
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.

PRODUCT INFORMATION
• Download product brief for netbooks
File Type/Size: PDF 500KB
• Download product brief for nettops
File Type/Size: PDF 1.03MB
• Compare Intel® Atom processors
FEATURES AND BENEFITS
For all other features & benefits, specific to netbooks & nettops, click on the links below: All Intel® Atom™ processors feature:
• Small Form Factor CPU Package
• Low TDP
• Power Optimized Front Side Bus
• Enhanced Data Prefetcher & Enhanced Register Access Manager
+View netbook specific features & benefits
INTEL® ATOM™ PROCESSOR N270 - NETBOOKS
Small form factor CPU package The new lead-free², halogen-free³ Micro-Flip Chip package is 60% smaller in netbooks (22x22 mm) than a notebook CPU (35x35 mm), saving system board real estate in a much thinner and smaller industrial design, enabling small netbook form factors.
Intel® Enhanced Deeper Sleep (C4/C4E) Saves power by flushing cache data to system memory during periods of inactivity to reduce power consumption and enable longer battery life.
Enhanced Intel® Speed Step Technology Multiple voltage and frequency operating points provide optimal performance at the lowest power. This allows for better matching of performance to application demand.
Low TDP Low Thermal Design Power enables thinner, lighter, portable netbook devices as it reduces the cooling requirements.
Power-optimized front side bus Minimizes power needed to transmit data to the processor, resulting in significant power savings and enabling longer battery life - all without impacting performance.
Enhanced data prefetcher and enhanced register access manager Anticipates data the processor is likely to need and stores the information within the processor's L2 cache, resulting in improved performance since the processor doesn't have to wait as long for data.
Intel® Advanced Smart Cache Cache and bus design for efficient data sharing, providing enhanced performance, responsiveness and power savings.
+View nettops specific features & benefits
Intel® Atom™ processor 230 - nettop single-core processor
Intel® Atom™ processor 330 - nettop dual-core processor
Intel® Atom™ processors for nettops (both single and dual-core) share the same features and benefits:
Small form factor CPU package The new lead free², halogen free³ Micro-Flip Chip package is 70% smaller (22x22mm) than a desktop CPU (37.5x37.5mm), saving system board real estate in a much thinner and smaller industrial design, enabling small nettop form factors.
Low TDP Low Thermal Design Power enables smaller internet-centric desktop computing devices due to the lower cooling requirements.
Power optimized front side bus Minimizes power needed to transmit data to the processor, resulting in significant power savings and enabling longer battery life - all without impacting performance.
Enhanced data prefetcher & Enhanced Register Access Manager Anticipates data the processor is likely to need and stores the information within the processor's L2 cache, resulting in improved performance since the processor doesn't have to wait as long for data.
Intel® Advanced Smart Cache Cache & bus design for efficient data sharing, providing enhanced performance, responsiveness and power savings.
Integrated DX9* graphics core The Intel® Graphics Media Accelerator 950 provides 3D graphics performance for a good visual computing experience.
Intel® High Definition Audio 5.1 Integrated audio support enables quality home theater sound and delivers advanced features such as multiple audio streams and jack re-tasking.
PCI Express* x1 Interface Offers up to 3.5 times the bandwidth over traditional PCI architecture. Supports LPC serial interface, ExpressCard and mini-card, and delivers fast access to peripheral devices and networking.
RELATED PRODUCTS
Chipsets Netbooks - Mobile Intel® 945GSE Express Chipset
Nettops - Intel® 945GC Express Chipset
¹ Wireless connectivity is not an Intel® Atom™ processor brand requirement. See your manufacturer for details.
² Intel® 45nm products are manufactured on a lead-free process. Lead-free per EU RoHS Directive (2002/95/EC, Annex A). Some RoHS exemptions may apply to other components used in the product package.
³ Applies to components containing flame retardants and PVC only. Halogens are below 900 PPM bromine, 900 PPM chlorine, and 1500 PPM combined bromine and chlorine. Copyright © 2008 Intel Corporation. All rights reserved. Intel, the Intel logo, Intel. Leap ahead. And Intel. Leap ahead. Logo, Intel Atom, Intel Speed Step, and Atom inside are trademarks of Intel Corporation in the U.S. and other countries.

Intel® Atom™ Processor for Mobile Internet Devices


For cutting-edge nomads seeking the best pocket able Internet experience, Intel® Atom™ processor for mobile internet devices unleashes the freedom and flexibility of Mobile Internet Devices (MIDs) enabling you to enjoy your entertainment or access the full Internet on the go.¹
PRODUCT INFORMATION
• Download the product brief
File Type/Size: PDF 971KB
• Download the datasheet
File Type/Size: PDF 776KB
• Download the specifications

FEATURES AND BENEFITS
Powering the newest and most exciting Mobile Internet Devices, Intel® Atom™ processor technology unleashes the best Internet experiences on the go.¹ enabling you to enjoy fast performance, smooth video streaming and playback, and brilliant graphics—all in a powerful and pocket able device.
With devices getting smaller, sleeker, and lighter than ever, you'll be able to choose from a variety of exciting new devices to keep you connected, entertained, informed and productive- and meet the demanding needs of your highly mobile lifestyle.¹
Consumer lifestyles have become more mobile and dependent on needing access to the internet in more places than ever before. Devices are getting smaller and require high performance processors that consume low power. Mobile Internet Devices based on Intel® Atom™ processor technology enable more of everything you love on-the-go:
• Put great performance in the palm of your hand. Based on the latest 45nm process technology, the Intel® Atom™ processor, the fastest processor among sub-3W processors, uses groundbreaking silicon design that packs big performance in a remarkably small space. With features like Hyper-Threading Technology* and Power Optimized Front Side Bus, end users can get the same internet experience they are used to on their PC with faster responsiveness and web page loads, plus the ability to multitask - all in a smaller, more portable form factor.
• Video in More Places. Sharing videos on the web has become increasingly mainstream among end users. With support for more video players and codec’s, you are able to view the latest videos with ease. You can also view HD content on your Mobile Internet Device, with support for up to 720p and 1080i HD video formats. This is enabled by the single-chip Intel® System Controller Hub, which features Intel® Clear Video Technology for MIDs, allowing for low power, full-frame, and hardware accelerated video playback.
• Enjoy 3D Graphics Enjoy enhanced user interfaces and visual effects with the high performance, low power graphics engine of the Intel® System Controller Hub featuring support for DX9L and OpenGL which enable a new class of applications for mobile devices, including select PC Games.
• Long battery life keeps you going. The Intel® Atom™ processor is an ultra low-power processor. Along with power saving features in the Intel® System Controller Hub, like Deep Power down Technology and Intel® Display Power Saving Technology, you can stay connected longer without having to plug in as often.
• Find connections when you need them Connect wirelessly where and when you want-at home, in the office, or on the go, hitting up hotspots around town or around the world. Wireless Connectivity on Mobile Internet Devices is supported in a variety of ways: Bluetooth, WiFi, 3G or WiMAX.²
Intel® Atom™ processor for mobile internet devices
Processors Intel® Atom™ Processor Z500, Z510, Z520, Z530, Z540
Chipsets Intel® System Controller Hub UL11L, US15L, US15W
Wireless technologies Integrated Wi-Fi and/or WWAN
¹ System performance, battery life, power savings, high-definition quality, video playback, wireless performance, and functionality will vary depending on your specific operating system, hardware, chipset, connection rate, site conditions, and software configurations. Wireless connectivity and some features may require you to purchase additional software, services or external hardware.
² WiMAX connectivity requires a WiMAX-enabled device and subscription to a WiMAX broadband service. WiMAX connectivity may require you to purchase additional software or hardware at extra cost. Availability of WiMAX is limited; check with your service provider for details on availability and network limitations. Broadband performance and results may vary due to environmental factors and other variables. See www.intel.com/go/getwimax/ for more information.

Tuesday, December 1, 2009

Intel Core i5 750s and Intel Core i7 860s – Price, specs of the low-power consuming processors


A leaked roadmap of the Intel’s upcoming desktop processors based on its Nehalem architecture shows two low-power processors, the Intel Core i5 750s and Intel Core i7 860s.Two low-power versions are expected by the Q1 2010. The Intel Core i5 750s and Intel Core i7 860s will have lower default clock speeds of 2.4GHz and 2.53GHz each but will consume lesser power from 95W to 82W to improve their usefulness in smaller enclosures. They should still reach the same 3.2GHz and 3.46GHz speeds in Turbo Boost mode.

Gigabyte GV-N98TSL-1GI – Price, Specs of the NVIDIA GeForce 9800 GT based graphics card


The new Gigabyte GV-N98TSL-1GI graphics card is powered by the NVIDIA GeForce 9800 GT.It uses the passive thermal technology,112 stream processors and Silent Cell tech. meant to provide all professional gamers with an extremely quiet gaming environment, says the company. It sports a 1GB GDDR3 memory and Microsoft DirectX 10 and OpenGL 2.1 support.

The new Gigabyte GV-N98TSL-1GI graphics card features:

* Powered by NVIDIA GeForce 9800 GT GPU
* Supports PCI Express 2.0
* Microsoft DirectX 10 and OpenGL 2.1 support
* Integrated with the industry’s best 1 GB GDDR3 memory and 256-bit memory interface
* Supports NVIDIA SLI® and Pure Video® HD technology
* Features Dual link DVI-I / D-sub / HDMI / HDCP

ATI Radeon HD 5850 – DirectX 11 graphics card


The new ATI Radeon HD 5850 is the next-generation desktop graphics cards; part of the AMD’s upcoming ATI Radeon HD 5000 series of GPUs.It will support Microsoft’s upcoming DirectX 11 API.

Lenovo Idea Centre A600 All-in-One Desktop PC – Price, Specs


The Lenovo Idea Centre A600 is an all-in-one desktop PC powered by the Intel Core 2 Duo processor, latest DDR3 memory, and Windows Vista operating system. An integrated HD TV tuner and excellent HD video playback abilities help make the A600 a strong entertainment machine. The Lenovo Idea Centre A600 should be suitable as general-purpose or family PC, as long as you are willing to pay a premium for its all-in-one form factor (i.e. everything inside monitor, no cabinet) – the same configuration simple desktop PC (i.e. with a cabinet) will cost 30-40% cheaper than this

Transcend DDR3 Memory with Thermal Sensors


Transcend Information, Inc. (Transcend®), a worldwide leader in storage and multimedia products, has released a new line of server-grade DDR3 ECC DIMM and Registered DIMM premium memory modules equipped with thermal sensors. This advanced innovation in thermal monitoring technology can greatly enhance memory reliability, efficiency, and overall system stability, making these new modules perfect for use in dedicated servers as well as workstations.

For high-end systems that constantly process huge amounts of data under non-stop operating conditions, CPU speed regulation and various other techniques to prevent overheating have become increasingly important in hardware design. In order to provide increased performance, Transcend now offers server-grade DDR3 modules that come equipped with an advanced thermal sensor. This allows motherboard chipsets to monitor the exact temperature of each memory module and adjust the memory load accordingly, ensuring the best possible system performance while at the same time protecting the DRAM modules from potentially catastrophic failure and compromised system stability.

Transcends thermal sensor equipped DDR3 memory modules include ECC DIMMs and Registered DIMMs in both 1333MHz and 1066MHz versions, all of which comply with JEDEC (the Joint Electron Device Engineering Council) standards. In addition, these modules are built to exacting specifications with the highest quality DRAM chips and components available. Each Transcend memory module undergoes rigorous testing to ensure the best performance possible, and comes with a lifetime warranty and the comprehensive support of Transcends renowned global service network. Recognized worldwide for reliable quality, outstanding performance, excellent compatibility and stable operation, Transcend memory modules are the preferred choice of performance-conscious system builders and IT professionals.