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44 results on '"Crotti, Stefano"'

1. Nonequilibrium steady-state dynamics of Markov processes on graphs

Author

Crotti, Stefano, Barthel, Thomas, and Braunstein, Alfredo

Subjects
Condensed Matter - Statistical Mechanics, Condensed Matter - Disordered Systems and Neural Networks
Abstract

We propose an analytic approach for the steady-state dynamics of Markov processes on locally tree-like graphs. It is based on the definition of a probability distribution for infinite edge trajectories in terms of infinite matrix products. For homogeneous ensembles on regular graphs, the distribution is parametrized by a single $d\times d\times r^2$ tensor, where $r$ is the number of states per variable and $d$ is the matrix-product bond dimension. While the approach becomes exact in the large-$d$ limit, it usually produces extremely accurate results even for small $d$. The $d^2r^2$ parameters are found by solving a fixed point equation, for which we provide an efficient belief-propagation procedure. We apply it to a variety of models, including Ising-Glauber dynamics with symmetric and asymmetric couplings and the SIS model. Even for small $d$, the results are compatible with Monte Carlo estimates and accurately reproduce known exact solutions. The method gives access to accurate temporal correlations which, in some regimes, may be virtually impossible to estimate by sampling., Comment: 5 pages, 5 figures, 6 short appendices

Published
2024

2. Matrix Product Belief Propagation for reweighted stochastic dynamics over graphs

Author

Crotti, Stefano and Braunstein, Alfredo

Subjects
Condensed Matter - Statistical Mechanics, Computer Science - Social and Information Networks, Quantitative Biology - Populations and Evolution
Abstract

Stochastic processes on graphs can describe a great variety of phenomena ranging from neural activity to epidemic spreading. While many existing methods can accurately describe typical realizations of such processes, computing properties of extremely rare events is a hard task. Particularly so in the case of recurrent models, in which variables may return to a previously visited state. Here, we build on the matrix product cavity method, extending it fundamentally in two directions: first, we show how it can be applied to Markov processes biased by arbitrary reweighting factors that concentrate most of the probability mass on rare events. Second, we introduce an efficient scheme to reduce the computational cost of a single node update from exponential to polynomial in the node degree. Two applications are considered: inference of infection probabilities from sparse observations within the SIRS epidemic model, and the computation of both typical observables and large deviations of several kinetic Ising models., Comment: 22 pages, 7 figures, 1 table, appendix

Published
2023
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3. The closest vector problem and the zero-temperature p-spin landscape for lossy compression

Author

Braunstein, Alfredo, Budzynski, Louise, Crotti, Stefano, and Ricci-Tersenghi, Federico

Subjects
Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics, Computer Science - Information Theory
Abstract

We consider a high-dimensional random constrained optimization problem in which a set of binary variables is subjected to a linear system of equations. The cost function is a simple linear cost, measuring the Hamming distance with respect to a reference configuration. Despite its apparent simplicity, this problem exhibits a rich phenomenology. We show that different situations arise depending on the random ensemble of linear systems. When each variable is involved in at most two linear constraints, we show that the problem can be partially solved analytically, in particular we show that upon convergence, the zero-temperature limit of the cavity equations returns the optimal solution. We then study the geometrical properties of more general random ensembles. In particular we observe a range in the density of constraints at which the systems enters a glassy phase where the cost function has many minima. Interestingly, the algorithmic performances are only sensitive to another phase transition affecting the structure of configurations allowed by the linear constraints. We also extend our results to variables belonging to $\text{GF}(q)$, the Galois Field of order $q$. We show that increasing the value of $q$ allows to achieve a better optimum, which is confirmed by the Replica Symmetric cavity method predictions., Comment: 29 pages, 13 figures

Published
2022
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8. Large deviations in stochastic dynamics over graphs through Matrix Product Belief Propagation

Author

Crotti, Stefano and Braunstein, Alfredo

Subjects
Social and Information Networks (cs.SI), FOS: Computer and information sciences, Statistical Mechanics (cond-mat.stat-mech), FOS: Biological sciences, Populations and Evolution (q-bio.PE), FOS: Physical sciences, Computer Science - Social and Information Networks, Quantitative Biology - Populations and Evolution, Condensed Matter - Statistical Mechanics
Abstract

Stochastic processes on graphs can describe a great variety of phenomena ranging from vehicular traffic to neural activity and epidemic spreading. While many existing methods can accurately describe typical realizations of such processes, computing properties of extremely rare events is generally a hard task. In particular, good approximations are lacking for models with recurrent dynamics, in which variables can return to a previously visited state. Recently, a scheme based on the cavity method with messages parametrized by matrix product states [T. Barthel, C. De Bacco, and S. Franz, Physical Review E 97, 010104 (2018)] has been shown to work well for typical trajectories. In this work, we build on this approach in two directions: first, we show how, using a general formulation of the belief propagation equations instead of the dynamical cavity method, it can be applied to Markov processes biased by arbitrary reweighting factors that concentrate most of the probability mass on rare events. Second, we introduce an efficient scheme to reduce the computational cost of a single node update from exponential to polynomial in the node degree, allowing to apply the method to graphs of large connectivity. Two applications are considered. First, we compute individual infection probabilities from sparse observations within the SIRS epidemic model (the risk assessment problem). Second, we compute typical observables and large deviations of Glauber dynamics on several Ising models, including a random field ferromagnet and a spin glass., Comment: 18 pages, 5 figures, 1 table, appendix

Published
2023
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11. Regio- and stereoselective ring opening of enantiomerically enriched 2-aryl oxetanes and 2-aryl azetidines with aryl borates

Author

Bertolini, Ferruccio, Crotti, Stefano, Di Bussolo, Valeria, Macchia, Franco, and Pineschi, Mauro

Subjects
Catechin -- Chemical properties, Catechin -- Structure, Heterocyclic compounds -- Structure, Heterocyclic compounds -- Chemical properties, Organoboron compounds -- Structure, Organoboron compounds -- Chemical properties, Transition metals -- Chemical properties, Biological sciences, Chemistry
Abstract

The regioselective ring opening of 2-aryl-subsituted four-membered heterocyclic rings with phenols, including catechol, is achieved by using aryl borates in mild and neutral reaction conditions without the help of any transition metal catalysts. Intramolecular cyclization has allowed a new access to 2-aryl-1,5-benzodioxepins in an enantioenriched form when reactive functionalities are present in the [beta]-aryloxy alcohol.

Published
2008

14. Viscoelasticity of nematic liquid crystals at a glance

Author

Giavazzi, Fabio, Crotti, Stefano, Speciale, Antonio, Serra, Francesca, Zanchetta, Giuliano, Trappe, Véronique, Buscaglia, Marco, Bellini, Tommaso, Cerbino, Roberto, Giavazzi, Fabio, Crotti, Stefano, Speciale, Antonio, Serra, Francesca, Zanchetta, Giuliano, Trappe, Véronique, Buscaglia, Marco, Bellini, Tommaso, and Cerbino, Roberto

Abstract

Polarised microscopy is shown to be a powerful alternative to light scattering for the determination of the viscoelasticity of aligned nematic liquid crystals. We perform experiments in a wide range of temperatures by using an adapted version of the recently introduced differential dynamic microscopy technique, which enables us to extract scattering information directly from the microscope images. A dynamic analysis of the images acquired in different geometries provides the splay, twist and bend viscoelastic ratios. A static analysis allows a successful determination of the bend elastic constant. All our results are in excellent agreement with those obtained with the far more time-consuming depolarised light scattering techniques. Remarkably, a noteworthy extension of the investigated temperature-range is observed, owing to the lower sensitivity of microscopy to multiple scattered light. Moreover, we show that the unique space-resolving capacities of our method enable us to investigate nematics in the presence of spatial disorder, where traditional light scattering fails. Our findings demonstrate that the proposed scattering-with-images approach provides a space-resolved probe of the local sample properties, applicable also to other optically anisotropic soft materials.

Published
2014

20. Viscoelasticity of nematic liquid crystals at a glance

Author

Giavazzi, Fabio, primary, Crotti, Stefano, additional, Speciale, Antonio, additional, Serra, Francesca, additional, Zanchetta, Giuliano, additional, Trappe, Veronique, additional, Buscaglia, Marco, additional, Bellini, Tommaso, additional, and Cerbino, Roberto, additional

Published
2014
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24. Synthesis of a well-defined glycoconjugate vaccine by a tyrosine-selective conjugation strategy

Author

Hu, Qi-Ying, primary, Allan, Martin, additional, Adamo, Roberto, additional, Quinn, Doug, additional, Zhai, Huili, additional, Wu, Guangxiang, additional, Clark, Kirk, additional, Zhou, Jing, additional, Ortiz, Sonia, additional, Wang, Bing, additional, Danieli, Elisa, additional, Crotti, Stefano, additional, Tontini, Marta, additional, Brogioni, Giulia, additional, and Berti, Francesco, additional

Published
2013
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42. New Strategies for the Synthesis of Bio-medically Relevant Oligosaccharides: Recent Updates on 1,2-cis-O-Glycosylation and -O-Sialylation

Author

Crotti, Stefano and Adamo, Roberto

Abstract

The last decade has been characterized by an extraordinary development of glycochemistry. Availability of synthetic glycoconjugates is, therefore, becoming more and more crucial to disclose the structural and functional aspects of glycoconjugates naturally present in cells and living organisms. Modern carbohydrate chemistry is engaged in the challenging task of providing more efficient methods to deliver pure well-defined oligosaccharides for bio-medical research. The main challenge of carbohydrate synthesis is represented by the stereocontrol of glycosylation that limits application of many procedures for the fast assembly of oligosaccharides. In the last ten years new glycosyl donors enabling the installation of 1,2-O-glycosyl and -O-sialyl linkages are deeply impacting the production of bio-medically relevant oligosaccharides. Albeit no expeditious general strategy offering easy and reliable access to all full range of oligosaccharides of interest is to date available, recent achievements render closer the routinely application of automated solid supported synthesis for a variety of glycans. Furthermore, improved methods for the stereocontrol of 1,2-cis-O-glycosylation and -Osialylation in combination with modern strategies for oligosaccharide assembly are offering fast access to a number of complex carbohydrate structures.

Published
2013

43. Sequential CopperCatalyzed Rearrangement–Allylic Substitution of Bicyclic Hydrazines with Grignard Reagents

Author

Crotti, Stefano, Bertolini, Ferruccio, Macchia, Franco, and Pineschi, Mauro

Abstract

The problem of the synthesis of trans1,4disubstituted hydrazino and aminocyclopentenes has been resolved by a sequential coppercatalyzed rearrangement–allylic alkylation of 2,3diazabicyclo2.2.1heptenes. The cisfused 5,5membered allylic carbazate which is formed in situby a novel copperII triflate CuOTf2±BINAPcatalyzed rearrangement, can be alkylated with a broad spectrum of Grignard reagents with a predominant SN2′regioselectivity. The NBoc protecting group proved to be optimal as regards yields, reaction times and regioselectivities.

Published
2009
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44. Viscoelasticity of nematic liquid crystals at a glance

Author

Giavazzi, Fabio, Crotti, Stefano, Speciale, Antonio, Serra, Francesca, Zanchetta, Giuliano, Trappe, Véronique, Buscaglia, Marco, Bellini, Tommaso, Cerbino, Roberto, Giavazzi, Fabio, Crotti, Stefano, Speciale, Antonio, Serra, Francesca, Zanchetta, Giuliano, Trappe, Véronique, Buscaglia, Marco, Bellini, Tommaso, and Cerbino, Roberto

Abstract

Polarised microscopy is shown to be a powerful alternative to light scattering for the determination of the viscoelasticity of aligned nematic liquid crystals. We perform experiments in a wide range of temperatures by using an adapted version of the recently introduced differential dynamic microscopy technique, which enables us to extract scattering information directly from the microscope images. A dynamic analysis of the images acquired in different geometries provides the splay, twist and bend viscoelastic ratios. A static analysis allows a successful determination of the bend elastic constant. All our results are in excellent agreement with those obtained with the far more time-consuming depolarised light scattering techniques. Remarkably, a noteworthy extension of the investigated temperature-range is observed, owing to the lower sensitivity of microscopy to multiple scattered light. Moreover, we show that the unique space-resolving capacities of our method enable us to investigate nematics in the presence of spatial disorder, where traditional light scattering fails. Our findings demonstrate that the proposed scattering-with-images approach provides a space-resolved probe of the local sample properties, applicable also to other optically anisotropic soft materials.

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