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  • Powering FPGA Applications
    Many new FPGAs are typically designed using advanced technology to achieve low power consumption while providing high performance. Those FPGAs use the new fabrication process that tends to require a lower core voltage, which extends the voltage range needed for its power supply with a higher
  • Implement FPGA Design with the OpenCL Standard
    Get higher performance, lower power, and faster time to market for your applications when you use the Open Computing Language (OpenCL) standard on an FPGA. Read the white paper to find out more about Altera's OpenCL program for FPGAs.
  • A Tailored Approach to FPGA Process Selection
    This white paper examines three categories of process characteristics, relates them to the internal structure of modern FPGAs, and then, in turn, looks at the impact the FPGAs have on the systems that employ them. In particular, a focus on the deployment of so-called FinFET transistors shows how
  • VLIW Microprocessor Hardware Design: For ASIC and FPGA
    VLIW Microprocessor Hardware Design: For ASIC and FPGA. Providing state-of-the-art coverage of microarchitectures, RTL coding, ASIC flow, and FPGA flow of design, this cutting-edge guide contains many skill-building examples to help you understand each step in the VLIW microprocessor design process.
  • Boosting Machine Vision with Built-in FPGA Image Preprocessing
    Since imaging processing tasks can consume major CPU resources in machine vision applications, increasing processing performance within size constraints is, accordingly, a common challenge for solution providers. The following discusses the efficacy of FPGA in addressing such performance
  • System-Level Debugging and Monitoring of FPGA Designs
    For the purposes of this paper, today's FPGA designs can be divided into two. different categories: those with embedded soft-core processors and those without. This division is useful when examining what debugging and monitoring. infrastructure designers use in their FPGA systems. The techniques
  • Altera's FPGA Floating-point DSP Design Flow
    FPGAs are increasingly used as parallel processing engines for demanding digital. signal processing applications. Benchmark results show that on highly parallelizable. workloads, FPGAs can achieve higher performance and superior cost/performance. compared to digital signal processors (DSPs
  • How the MityDSP L138+FPGA SOM is Being Used
    One of the things that keeps life interesting at Critical Link is seeing how our customers are utilizing our system-on-modules in their products. While the MityDSP-L138+FPGA - part of our OMAP-L138 family of SoMs - has been available for a few years, our customers are still coming up

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