Abstract
A novel way of implementing the leading zero detector (LZD) circuit is presented. The implementation is based on an algorithmic approach resulting in a modular and scalable circuit for any number of bits. We designed a 32 and 64 bit leading zero detector circuit in CMOS and ECL technology. The CMOS version was designed using both: logic synthesis and an algorithmic approach. The algorithmic implementation is compared with the results obtained using modern logic synthesis tools in the same 0.6 /spl mu/m CMOS technology. The implementation based on an algorithmic approach showed an advantage compared to the results produced by the logic synthesis. ECL implementation of the 64 bit LZD circuit was simulated to perform in under 200 ps for nominal speed. >
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