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[Author] Akihiko HASHIGUCHI(2hit)

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  • Dynamic Voltage and Frequency Management for a Low-Power Embedded Microprocessor

    Takahiro SEKI  Satoshi AKUI  Katsunori SENO  Masakatsu NAKAI  Tetsumasa MEGURO  Tetsuo KONDO  Akihiko HASHIGUCHI  Hirokazu KAWAHARA  Kazuo KUMANO  Masayuki SHIMURA  

     
    PAPER-Digital

      Vol:
    E88-C No:4
      Page(s):
    520-527

    In this paper, a Dynamic Voltage and Frequency Management (DVFM) scheme introduced in a microprocessor for handheld devices with wideband embedded DRAM is reported. Our DVFM scheme reduces the power consumption effectively by cooperation of the autonomous clock frequency control and the adaptive supply voltage control. The clock frequency is controlled using hardware activity information to determine the minimum value required by the current processor load. This clock frequency control is realized without special power management software. The supply voltage is controlled according to the delay information provided from a delay synthesizer circuit, which consists of three programmable delay components, gate delay, RC delay and a rise/fall delay. The delay synthesizer circuit emulates the critical-path delay within 4% voltage accuracy over the full range of process deviation and voltage. This accurate tracking ability realizes the supply voltage scaling according to the fluctuation of the LSI's characteristic caused by the temperature and process deviation. The DVFM contributes not only the dynamic power reduction, but also the leakage power reduction. This microprocessor, fabricated in 0.18 µm CMOS embedded DRAM technology achieves 82% power reduction in a Personal Information Management scheduler (PIM) application and 40% power reduction in a MPEG4 movie playback application. As process technology shrinks, the DVFM scheme with leakage power compensation effect will become more important realizing in high-performance and low-power mobile consumer applications.

  • 5. 4 GOPS, 81 GB/s Linear Array Architecture DSP

    Akihiko HASHIGUCHI  Masuyoshi KUROKAWA  Ken'ichiro NAKAMURA  Hiroshi OKUDA  Koji AOYAMA  Mitsuharu OHKI  Katsunori SENO  Ichiro KUMATA  Masatoshi AIKAWA  Hirokazu HANAKI  Takao YAMAZAKI  Mitsuo SONEDA  Seiichiro IWASE  

     
    PAPER

      Vol:
    E81-C No:5
      Page(s):
    661-668

    A programmable DSP with linear array architecture for real-time video processing is reported. It achieves a processing rate of 5. 4 GOPS and 81GB/s memory bandwidth using Dual Sense Amplifier architecture. A low-power-supply pipeline decreases power consumption and a time shared bit-line reduces chip area. It has 4320 processor elements and a 1. 1 Mbit 3-port memory. The DSP can be applied to HDTV signals with its 75 MHz peak I/O rate. Sufficient programmability is provided to execute video format conversion such as image size conversion and Y/C separation, and picture quality improvement such as noise reduction and image enhancement. The chip was fabricated using 0. 4 µm CMOS triple metal technology with a 15. 12 mm 14. 95 mm die. It operates at 50 MHz and consumes 0. 53 W/GOPS at 3. 3 V.