V. Liberali scite author profile

V. Liberali

5Publications

131Citation Statements Received

29Citation Statements Given

How they've been cited

130

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Affiliations

INFN Sezione di Milano, University of Milan, University of Pavia

Publications

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Logic Synthesis for Switching Lattices by Decomposition with P-Circuits

Bernasconi

Ciriani

Frontini

et al. 2016

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In this paper we propose a novel approach to the synthesis of minimal-sized lattices, based on the decomposition of logic functions. Since the decomposition allows to obtain circuits with a smaller area, our idea is to decompose Boolean functions with separate lattices, according to the P-circuits decomposition scheme, and then to implement the decomposed blocks with physically separated regions in a single lattice. Experimental results show that about 35% of the considered benchmarks achieve a smaller area when implemented using the proposed decomposition for switching lattices, with an average gain of at least 24%

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Synthesis of P-circuits for logic restructuring

et al. 2012

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AM06: the Associative Memory chip for the Fast TracKer in the upgraded ATLAS detector

Annovi¹,

Beretta²,

Calderini³

et al. 2017

J. Inst.

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A new variable-resolution Associative Memory for high energy physics

Annovi

Amerio

Beretta

et al. 2011

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Abstract-We describe an important advancement for the Associative Memory device (AM). The AM is a VLSI processor for pattern recognition based on Content Addressable Memory (CAM) architecture. The AM is optimized for on-line track finding in high-energy physics experiments. Pattern matching is carried out by finding track candidates in coarse resolution "roads". A large AM bank stores all trajectories of interest, called "patterns", for a given detector resolution. The AM extracts roads compatible with a given event during detector read-out.Two important variables characterize the quality of the AM bank: its "coverage" and the level of fake roads. The coverage, which describes the geometric efficiency of a bank, is defined as the fraction of tracks that match at least one pattern in the bank. Given a certain road size, the coverage of the bank can be increased just adding patterns to the bank, while the number of fakes unfortunately is roughly proportional to the number of patterns in the bank. Moreover, as the luminosity increases, the fake rate increases rapidly because of the increased silicon occupancy. To counter that, we must reduce the width of our roads. If we decrease the road width using the current technology, the system will become very large and extremely expensive.We propose an elegant solution to this problem: the "variable resolution patterns". Each pattern and each detector layer within a pattern will be able to use the optimal width, but we will use a "don't care" feature (inspired from ternary CAMs) to increase the width when that is more appropriate. In other words we can use patterns of variable shape.As a result we reduce the number of fake roads, while keeping the efficiency high and avoiding excessive bank size due to the reduced width.We describe the idea, the implementation in the new AM design and the implementation of the algorithm in the simulation. Finally we show the effectiveness of the "variable resolution patterns" idea using simulated high occupancy events in the ATLAS detector.

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CHIPIX65: Developments on a new generation pixel readout ASIC in CMOS 65 nm for HEP experiments

Demaria

Dellacasa

Mazza

et al. 2015

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V. Liberali

Logic Synthesis for Switching Lattices by Decomposition with P-Circuits

Synthesis of P-circuits for logic restructuring

AM06: the Associative Memory chip for the Fast TracKer in the upgraded ATLAS detector

A new variable-resolution Associative Memory for high energy physics

CHIPIX65: Developments on a new generation pixel readout ASIC in CMOS 65 nm for HEP experiments

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