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The objective of this paper is to present a numerical technique for the analysis of printed circuits and antennas using the grounded dielectric slab Green's functions. For the dynamic case, the Green's functions are quite complicated and require the numerical computation of certain semi-infinite integrals commonly known as the Sommerfeld integrals. In this paper certain approximations have been made...
This paper presents platform power modeling and its usage for power forecasting and optimization of state-of-art mobile platforms that use multi-core microprocessors with other integrated silicon components. The developed methodologies improve prediction accuracy and reduce run time compared to traditional methods of analyzing individual components each on their own then adding them together.
In the last few years, power and power delivery have become the major concerns to computing platforms. The emphasis on power led to several fundamental changes in the design approach of high performance microprocessors. The most notable and visible change was the move to more energy efficient architectures such as the multi-cores. Less visible but equally important changes were also achieved at the...
In the last few years, power and power delivery have become the major concerns to computing platforms. The emphasis on power led to several fundamental changes in the design approach of high performance microprocessors. In this paper, we present some of these fundamental changes. We show how they were applied and validated on a lead 65 nm microprocessor
This paper presents a frequency domain technique for optimization, sensitivity, and robustness analysis of large high speed lossy multi-conductor transmission line networks in VLSI regimes. The technique is used to compare several interconnect topologies in terms of their electrical performance. Finally, to demonstrate the usefulness and accuracy of the technique, the numerical frequency domain results...
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