Alberto Nannarelli scite author profile

Alberto Nannarelli

5Publications

285Citation Statements Received

34Citation Statements Given

How they've been cited

265

283

How they cite others

Affiliations

Technical University of Denmark, University of Rome Tor Vergata, Irvine University

Publications

Order By: Most citations

A Radix-10 Digit-Recurrence Division Unit: Algorithm and Architecture

Lang

Nannarelli

2007

IEEE Trans. Comput.

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In this work, we present a radix-10 division unit that is based on the digit-recurrence algorithm. The previous decimal division designs do not include recent developments in the theory and practice of this type of algorithm, which were developed for radix-2 k dividers. In addition to the adaptation of these features, the radix-10 quotient digit is decomposed into a radix-2 digit and a radix-5 digit in such a way that only five and two times the divisor are required in the recurrence. Moreover, the most significant slice of the recurrence, which includes the selection function, is implemented in radix-2, avoiding the additional delay introduced by the radix-10 carry-save additions and allowing the balancing of the paths to reduce the cycle delay. The results of the implementation of the proposed radix-10 division unit show that its latency is close to that of radix-16 division units (comparable dynamic range of significands) and it has a shorter latency than a radix-10 unit based on the Newton-Raphson approximation.

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An Efficient Hardware Implementation of Reinforcement Learning: The Q-Learning Algorithm

et al. 2019

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A Radix-10 Combinational Multiplier

Lang

Nannarelli

2006

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Abstract-In this work, we present a combinational decimal multiply unit which can be pipelined to reach the desired throughput. With respect to previous implementations of decimal multiplication, the proposed unit is combinational (parallel) and not sequential, has a simpler recoding of the operands which reduces the number of partial product precomputations and uses counters to eliminate the need of the decimal equivalent of a 4:2 adder. The results of the implementation show that the combinational decimal multiplier offers a good compromise between latency and area when compared to other decimal multiply units and to binary double-precision multipliers.

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Programmable Power-of-two RNS Scaler and its Application to a QRNS Polyphase Filter

Cardarilli¹,

Re²,

Nannarelli

et al.

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Power Efficient Division and Square Root Unit

Liu

Nannarelli

2012

IEEE Trans. Comput.

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