A. Chandrakasan, R. Allmon, A. Stratakos, and R. W. Brodersen, "Design of Portable Systems, " Proceedings of CICC `94, San Diego, May 1994.  Home/Search   Document Not in Database   Summary   Related Articles   Check

.... of such systems, thereby increasing battery lifespan [10] Although early work in low power electronics focused on changes to fabrication technology and logic design, it has been shown that larger gains can be obtained by considering power during the earlier phases of the design process [11]. In most related work, communication is assumed to have only one associated cost: time. However, communication links consume power as well as time. A co synthesis system which targets low power applications must take both PE and communication link power requirements into account. Many ....

A. P. Chandrakasan, "Design of portable systems," in Proc. Custom Integrated Circuits Conference, pp. 259--266, May 1994.

....a level conversion is needed at the interface. Four alternatives were considered to accomplish this: omit the level converter, use a chain of inverters at successively higher voltages, use an active or passive pullup, or use a dual cascode voltage switch (DCVS) circuit as a level converter [12], 13] Another alternative not considered at the time of the research was to combine the register and level conversion operations as described by Usami and Horowitz [13] We omit the level converter for step down conversions and use the DCVS circuit for step up conversions. Given appropriate ....

A. P. Chandrakasan, R. Allmon, A. Stratakos, and R. W. Brodersen, "Design of portable systems," in IEEE Custom Integrated Circuits Conference, 1994, pp. 259--266.

....instruction scheduling [24] In this algorithm, only instruction and address related switching are considered due to the unpredictability of data values. However, for signal processing applications it is often possible to even predict switching activities due to correlations in sampled signal data [3]. 3.4. INSTRUCTION LEVEL POWER ANALYSIS Instruction level power analysis (ILPA) 27] defines an empirical method for characterizing the power dissipation of short instruction sequences and for using these results to estimate the power (or energy) dissipation of a program. A detailed description ....

Chandrakasan, A., Allmon, R., Stratakos, A., and Brodersen, R. (1994). Design of portable systems. In IEEE Custom Integrated Circuits Conference, 259--266.

....a level conversion is needed at the interface. Four alternatives were considered to accomplish this: omit the level converter, use a chain of inverters at successively higher voltages, use an active or passive pullup, or use a dual cascode voltage switch (DCVS) circuit as a level converter [2, 18]. We omit the level converter for stepdown conversions and use the DCVS circuit for stepup conversions. Given appropriate transistor sizes, this circuit exhibits no static current paths and it can operate over a full 1.5V to 5.0V range of input and output supply voltages. A model was needed that ....

A. Chandrakasan, R. Allmon, A. Stratakos, and R. Brodersen. Design of Portable Systems. In IEEE Custom Integrated Circuits Conference, pages 259--266, 1994.

....a level conversion is needed at the interface. Four alternatives were considered to accomplish this: omit the level converter, use a chain of inverters at successively higher voltages, use an active or passive pullup, or use a differential cascode voltage switch (DCVS) circuit as a level converter [Chandrakasan et al. 1994; Usami and Horowitz 1995] We omit the level converter for step down conversions and use the DCVS circuit for step up conversions. Given appropriate transistor sizes, this circuit exhibits no static current paths and it can operate over a full 1.5V to 5.0V range of input and output supply ....

Chandrakasan, A. P., Allmon, R., Stratakos, A., and Brodersen, R. W. 1994. Design of portable systems. In Proceedings, Custom Integrated Circuits Conference (1994). pp. 259--266.

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A. Chandrakasan, R. Allmon, A. Stratakos, and R. W. Brodersen, "Design of Portable Systems, " Proceedings of CICC `94, San Diego, May 1994.

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A. Chandrakasan, R. Allmon, A. Stratakos and R. Brodersen, "Design of Portable Systems", Proc. CICC Conf.,May 1994.

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A. P. Chandrakasan, R. Allmon, A. Stratakos, and R. W. Brodersen. Design of portable systems. In Proceedings of the IEEE Custom Integrated Circuits Conference, May 1994.

No context found.

A. Chandrakasan, R. Allmon, A. Stratakos, and R. W. Brodersen. " Design of portable systems. " Proceedings of CICC, San Diego, May 1994.

No context found.

A. P. Chandrakasan, R. Allmon, A. Stratakos, and R. W. Brodersen. Design of portable systems. In Proceedings of the IEEE Custom Integrated Circuits Conference, May 1994.

No context found.

A. Chandrakasan, R. Allmon, A. Stratakos, and R. W. Brodersen. " Design of portable systems. " Proceedings of CICC, San Diego, May 1994.

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