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"MicroFlix"...Funny name; how crazy would it be if Netflix joined the Microsoft Family?
Global Semiconductor Sales Grow at Fastest Rate in Almost Two Years on Sequential Monthly Basis, Top $24 Billion for First Time in 2012
High Performance and Low Power Design: Tradeoff or Co-Existence?
FRAM-based MCUs Bring Advanced Security to Low-Power Applications

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Recommended Technology Papers

  • Improved Graphics Performance Changes the Cost Equation in Digital Signage

    The quality and flexibility of digital signage is a function of the graphics processing capability of the media players that drive the displays. To deliver a high level of graphics performance, media players tend to incorporate discrete graphics processing units, although some players use the graphics engine on the CPU platform. Discover how 3rd Generation Intel® Core™ processors provide retailers improved graphics performance and anonymous video analytics to deliver audience messaging at lower cost and watt.

  • Lowering Power at 28 nm with Xilinx 7 Series FPGAs

    This white paper describes several aspects of power related to the Xilinx® 28 nm 7 series FPGAs, including the TSMC 28 nm high-k metal gate (HKMG), high performance, low power (28 nm HPL or 28 HPL) process choice. The power benefits afforded by the 28 HPL process and its usefulness across Xilinx's full product offerings is described as well as the architectural innovations and features for power reduction across the dimensions of static power, dynamic power, and I/O power.

  • Getting Started with Artix-7 FPGAs

    Conceived and designed for high-volume markets, Artix-7 FPGAs deliver the lowest power consumption and lowest cost in the 7 series. The family shares the same building blocks as the Kintex-7 and Virtex-7 FPGA architecture on the same 28 nm High Performance, Low Power (HPL) process, but transistor-level design choices enable the Artix-7 family to offer much lower power consumption while still meeting the performance needs of the target applications.

  • Digital Video Drives the Design of Next-Generation Personal Computing Devices

    Five Trends that Affect IC Designers, ODMs, and OEMs—and What They Can Do About Them.

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  • PIC24F16KL Family Expands Microchip’s PIC24 Lite MCU Portfolio for Cost Sensitive Applications

    The PIC24F16KL family is Microchip’s lowest cost 16-bit PIC® microcontroller family. As the newest addition to the PIC24 Lite portfolio, these MCUs combine the performance of the

  • Kintex-7 FPGAs

    Supported Architectures: 28nm based-product Kintex™-7 FPGAs offer high-density logic, high-performance connectivity, memory, and DSP, plus Agile Mixed Signal technology to enable

  • PIC24F “GA3” Family

    The PIC24F “GA3” family features the industry’s lowest active current for 16-bit Flash MCUs along with flexible new low-power sleep modes. The PIC24F GA3 devices feature 150 mA/MHz

  • ISE Design Suite 13

    Supported Architectures: 7 series FPGAs, Spartan™ series FPGAs ISE® Design Suite 13 maximizes productivity, by leveraging open industry standards to accelerate design creation,

  • XLP 8-bit & 16-bit Development Boards for Extremely Low Power Designs

    The XLP 8-bit & 16-bit Development Boards are designed with eXtreme Low Power in mind. Designed as a true platforms for low power development, they enable designs with sleep currents

  • 7 Series FPGA Power Advantage

    Providing superior performance per watt, Xilinx 7 series FPGAs share a scalable, optimized hardware architecture and are fabricated on a versatile 28nm high-k metal gate (HKMG) high

  • nanoWatt XLP eXtreme Low Power PIC® MCUs

    Supported 8-bit & 16-bit Architectures: PIC® Microcontrollers As more electronic applications require low power or battery power, energy conservation becomes paramount. Today’s

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