QLS Guest Seminar - Wed. 5 September 11h00
Quantitative Life Sciences
qls at ictp.it
Wed Aug 29 12:21:19 CEST 2018
QLS GUEST SEMINAR
Wednesday, 5 September 2018 11h00
ICTP, Central Area, 2nd floor, old SISSA building, Via Beirut 2
https://goo.gl/maps/qotEd4RyXGJ2
Web: http://indico.ictp.it/event/8677/
Speaker: Marco Baity-Jesi - Columbia University, New York (NY), USA
Title: Trap Models and their Connection to more Realistic Glasses
Abstract:
At low temperatures, the dynamics of glasses suffer a dramatic slowing
down. The system becomes stuck in metastable configurations called
traps, which are rarely abandoned, through a process called activation.
The Trap Model (TM), that de- scribe the motion between different traps,
provides a simplified framework to un- derstand activated dynamics. Even
though signs of TM-like behavior were found in realistic systems, it is
not clear (i) whether the dynamics of most models is the one predicted
by the TM, (ii) to what extent the TM description applies to other
glasses and (iii) which are the relevant features for this dynamics to
be found. We show that the TM description does apply to other glassy
models, such as the Ran- dom Energy Model [1], if one defines the traps
dynamically, through the time series of the energy [2]. We then extend
our analysis to systems with correlated energy levels, and see that the
trap behavior holds as long as the correlations are weak [3]. Once the
correlations are strong enough, as it happens in a Hamiltonian system,
it is unclear whether the dynamic behavior of the glass can be
completely described through the simple picture provided by the TM.
Comparing Dynamics of Glasses with Deep Neural Networks
Time permitting, a second section on Deep Learning is presented. We
study dynam- ics and energy (or loss) landscape of feedforward Deep
Neural Networks [4], with an emphasis on their Mean Square Displacement,
and find that they exhibit aging on a finite time scale. Later, they
start diffusing at the bottom of the landscape. Further, we argue that
the slow dynamics is due rather to flat directions in the landscape than
to barrier crossing, and we show evidence of an under- to
over-parametrized phase transition.
Everyone interested is most welcome to attend!
Erica Sarnataro
Group Secretary
Quantitative Life Sciences
The Abdus Salam International Centre for Theoretical Physics (ICTP)
Trieste, Italy
Tel. +39-040-2240623
www.ictp.it/research/qls.aspx
e-mail: qls at ictp.it
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