Search for dissertations about: "Power dissipation"
Showing result 6 - 10 of 105 swedish dissertations containing the words Power dissipation.
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6. Low-Power Low-Jitter Clock Generation and Distribution
Abstract : Today’s microprocessors with millions of transistors perform high-complexitycomputing at multi-gigahertz clock frequencies. Clock generation and clockdistribution are crucial tasks which determine the overall performance of amicroprocessor. READ MORE
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7. InP High Electron Mobility Transistors for Cryogenic Low-Noise and Low-Power Amplifiers
Abstract : The InAlAs/InGaAs/InP high-electron mobility transistor (InP HEMT) is the preferred low-noise device in cryogenic low-noise amplifiers (LNAs) operating at 5-15 K. Such LNAs are utilized in microwave and millimeter-wave detection in radio astronomy. READ MORE
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8. Low-Power Multi-GHz Circuit Techniques for On-chip Clocking
Abstract : The impressive evolution of modern high-performance microprocessors have resulted in chips with over one billion transistors as well as multi-GHz clock frequencies. As the silicon integrated circuit industry moves further into the nanometer regime, three of the main challenges to overcome in order for continuing CMOS technology scaling are; growing standby power dissipation, increasing variations in process parameters, and increasing power dissipation due to growing clock load and circuit complexity. READ MORE
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9. VLSI aspects on inversion in finite fields
Abstract : Different algorithms and architectures for inversion in finite extension fields are studied. The investigation is restricted to fields of characteristic two. Based on a simple transistor model, various architectures are compared with respect to delay, area requirement, and energy consumption. READ MORE
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10. Static Power Reduction and Estimation in CMOS Circuits Considering Emerging Leakage Mechanisms
Abstract : Due to semiconductor technology advancements, the static power dissipation caused by leakage currents in CMOS circuits is growing at a much faster rate than dynamic power; the dominant power component. As a result, controlling and limiting static power becomes as crucial as controlling dynamic power. READ MORE