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Wells, LabVIEW Graphical Programming for Instrumentation, Prentice Hall Englewood Cliffs, NJ, 1995. L. Wells and J. Travis, LabVIEW for Everyone: Graphical Programming Made Even Easier, Prentice Hall, Upper Saddle River, NJ, 1996. SOURCES AppCad Agilent Technologies, Inc. com HP-2 Series RF modules, Splatch planar antenna Linx Technologies, Inc. com MPLAB, PIC16C717 Microcontroller Microchip Technology, Inc. com LabVIEW National Instruments Corp. html. LM70 temperature sensor, LM809 microprocessor reset circuits National Semiconductor Corp.

V. Kantabutra, “Designing Optimum Carry-skip Adders,” Proceedings of the 10th Symposium on Computer Arithmetic, Grenoble, France 1991. V. Corsonello, “Tradeoffs in Digital Binary Adders,” in B. Lu, D. Du, and S. Sapatnekar, Layout Optimizations in VLsi Design, Kluwer Academic Publisher, Dordrecht, Netherlands, 2001. S. Turrini, “Optimal Group Distribution in Carry-skip Adders,” Proceedings of the 9th Symposium on Computer Arithmetic, Santa Monica, California, 1989. Issue 148 November 2002 37 FEATURE ARTICLE Divyata Kakumanu, Joel Jorgenson, Tristan Simetkosky, Conrad Thomas, and Brian Morlock A Low-Power Embedded Thermal Sensor System t It’s important that your embedded electronics systems have thermal sensors capable of monitoring their external environments.

Today, carry-skip adders are used in many digital systems. Recently, a group of engineers took the technology a step further by designing efficient carry-skip adders for FPGAs. 28 Issue 148 November 2002 dders are a part of the critical path in virtually all practical digital systems, because every arithmetic operation requires one. Thus, the speed and area efficiency of adders is important when you’re designing a circuit. A fairly large body of literature exists for adder design in today’s standard cell and custom IC technologies, but little success has been reported in the realm of the increasingly important FPGA technologies.

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Circuit Cellar (November 2002)

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