Leading-Zero Anticipatory Logic for High-Speed Floating Point Addition - Solid-State Circuits, IEEE Journal of
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چکیده
This paper describes a new leading-zero anticipatory (LZA) logic for high-speed floating-point addition (FADD). This logic carries out the pre-decoding for normalization concurrently with addition for the significand. It also performs the shift operation of normalization in parallel with the rounding operation. The use of simple Boolean algebra allows the proposed logic to be constructed from a simple CMOS circuit. Its area penalty is as small as 30% of the conventional LZA method. The FADD core using the proposed logic was fabricated by 0.5 pm CMOS technology with triple metal interconnections and runs at 164 MHz under the condition of VDD = 3.3 V.
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Comments on “Leading-Zero Anticipatory Logic for High-Speed Floating Point Addition”
I have read with a great interest the above article by H. Suzuki et al. I am familiar with their work, and I found their approach interesting. The idea used to simplify the leading zero anticipator (LZA) I found innovative and an improvement over the one used in the IBM RS/6000. One of the critical parts of their LZA circuit is the leading zero detector (referred as leading zero counter in the ...
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تاریخ انتشار 2004