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A unified approach to detect and distinguish hardware trojans and faults in sram-based fpgas
, Article Journal of Electronic Testing: Theory and Applications (JETTA) ; Volume 35, Issue 2 , 2019 , Pages 201-214 ; 09238174 (ISSN) ; Bayat Sarmadi, S ; Pooyan, F ; Asadi, H ; Sharif University of Technology
Springer New York LLC
2019
Abstract
In recent years, confrontation with hardware Trojans has become a major concern due to various reasons including outsourcing. Such a growing threat is more pronounced in reconfigurable devices as they are used in widespread applications due to low design cost and short time-to-market. Besides their vulnerability to hardware Trojan attacks, SRAM-based reconfigurable devices are also significantly susceptible to faults originated by particle strikes. There have been various methods to mitigate either hardware Trojan attacks or faults. To our knowledge, however, no method has been presented that can integrate detecting, distinguishing, and mitigating faults and Trojans. In this paper, we...
The extended finite element method for large deformation ductile fracture problems with a non-local damage-plasticity model
, Article Engineering Fracture Mechanics ; Volume 112-113 , 2013 , Pages 97-125 ; 00137944 (ISSN) ; Khoei, A. R ; Sharif University of Technology
2013
Abstract
An enriched-FEM technique is presented for the crack growth simulation in large deformation ductile fracture problems using a non-local damage-plasticity model in the framework of eXtended Finite Element Method (X-FEM). The Lemaitre damage-plasticity model is used to capture the material degradation effect, in which the non-locality is enforced by solving a Helmholtz type equation in combination with the governing equation of the system based on an operator-split technique. A convergence study is performed to investigate the performance of X-FEM technique in plasticity problems. The accuracy and effectiveness of proposed X-FEM damage-plasticity model are verified through several numerical...
X-FEM modeling of dynamic ductile fracture problems with a nonlocal damage-viscoplasticity model
, Article Finite Elements in Analysis and Design ; Volume 99 , July , 2015 , Pages 50-67 ; 0168874X (ISSN) ; Khoei, A. R ; Sharif University of Technology
Elsevier
2015
Abstract
In this paper, the dynamic large deformation X-FEM method is presented for modeling the full process of dynamic ductile fracture based on a nonlocal damage visco-plasticity model. The effect of inertia is modeled using an explicit central difference scheme which is enhanced through the use of mass lumping, reduced integration with hourglass control, and numerical damping. The material nonlinearity and the flow stress dependency on strain rate, hardening and temperature are modeled with the Johnson-Cook visco-plastic model. The micro-void nucleation, growth and coalescence are modeled macroscopically with an isotropic damage model. The localization phenomenon due to the damage and thermal...
General framework for dynamic large deformation contact problems based on phantom-node X-FEM
, Article Computational Mechanics ; Volume 61, Issue 4 , April , 2018 , Pages 449-469 ; 01787675 (ISSN) ; Khoei, A. R ; Sharif University of Technology
Springer Verlag
2018
Abstract
This paper presents a general framework for modeling dynamic large deformation contact-impact problems based on the phantom-node extended finite element method. The large sliding penalty contact formulation is presented based on a master-slave approach which is implemented within the phantom-node X-FEM and an explicit central difference scheme is used to model the inertial effects. The method is compared with conventional contact X-FEM; advantages, limitations and implementational aspects are also addressed. Several numerical examples are presented to show the robustness and accuracy of the proposed method. © 2017, Springer-Verlag GmbH Germany
General framework for dynamic large deformation contact problems based on phantom-node X-FEM
, Article Computational Mechanics ; 2017 , Pages 1-21 ; 01787675 (ISSN) ; Khoei, A. R ; Sharif University of Technology
2017
Abstract
This paper presents a general framework for modeling dynamic large deformation contact-impact problems based on the phantom-node extended finite element method. The large sliding penalty contact formulation is presented based on a master-slave approach which is implemented within the phantom-node X-FEM and an explicit central difference scheme is used to model the inertial effects. The method is compared with conventional contact X-FEM; advantages, limitations and implementational aspects are also addressed. Several numerical examples are presented to show the robustness and accuracy of the proposed method. © 2017 Springer-Verlag GmbH Germany
Modeling Fracture Problems with X-FEM
, M.Sc. Thesis Sharif University of Technology ; Khoei, Amir Reza (Supervisor)
Abstract
Every year, fracture imposes high economic costs and casualties to all societies. Since the beginning of the twentieth century, scientific approach to this issue has lead to invention of a new branch in mechanics, called fracture mechanics. In general, fracture problems fall into two categories. Brittle fracture, like what happens in glass, in which, few plastic deformations and energy absorption occurs and ductile fracture, which is preceded by large plastic deformations and energy absorption. This kind of fracture is usual in ductile metals like low carbon steel. Finite Element which is considered as the most important numerical method in the mechanics of materials, is also, widely used in...
Dynamic Modelling of Ductile Damage with Extended Finite Element Method
, Ph.D. Dissertation Sharif University of Technology ; Khoei, Amir Reza (Supervisor)
Abstract
In this thesis, based on the combination of Extended Finite Element Method (X-FEM) and appropriate material constitutive models, an efficient method is proposed to model ductile fracture under quasi-static, cyclic and dynamic conditions. X-FEM is a novel method in which with the use of appropriate enrichment functions, discontinuity geometry is separated from the computational mesh and hence the need for a remeshing step is alleviated. The non-linear material behavior in the crack tip process zone can best be modeled with methods based on continuum damage mechanics. These methods model the ductile fracture mechanisms, phenomenologically. In this thesis, in order to model the ductile...
An efficient enrichment strategy for modeling stress singularities in isotropic composite materials with X-FEM technique
, Article Engineering Fracture Mechanics ; Volume 169 , 2017 , Pages 201-225 ; 00137944 (ISSN) ; Khoei, A. R ; Broumand, P ; Sharif University of Technology
Elsevier Ltd
2017
Abstract
An efficient enrichment strategy is presented for modeling stress singularities in multi-material problems and crack-tips terminating at a bi-material interface within the X-FEM framework. The eigen-function expansion method is employed to evaluate eigen-values and asymptotic fields around singular points. The generalized stress intensity factors are defined on the basis of direct and interaction integral techniques. Numerical examples are solved for different types of eigen-values, and the convergence study is performed to investigate the accuracy of the proposed enrichment strategy. The results indicate that the proposed method has superior accuracy, higher convergence rate and lower...
Modeling of Hydraulic Fracture Propagation in Porous Media by Applying a Damage Model in the Extended Finite Element Method
, M.Sc. Thesis Sharif University of Technology ; Khoei, Amir Reza (Supervisor) ; Broumand, Poyan (Co-Advisor)
Abstract
In the last decades, Hydraulic Fracturing has been found widespread applications. One of its main applications is fracture producing in hydrocarbon reservoirs and increasing the outflow of oil and gas. Thus, control and prediction of crack path is really necessary. One of the major parts in any model is an appropriate crack propagation criteria. Many criterion has been proposed in literature. These models often assume some simplifying assumptions. They often consider isotropic media. In fact, this assumption is not applicable in geo-mechanics. In other words, there are many inhomogenities such as micro-cracks and microdefects. These appear in the flow characteristics (e.g. permeability) and...
Nonlinear analysis of structures using new one dimensional elements under periodic loading
, Article 9th International Conference on Computational Plasticity: Fundamentals and Applications, COMPLAS IX, Barcelona, 5 September 2007 through 7 September 2007 ; Issue PART 2 , 2007 , Pages 956-959 ; 9788496736290 (ISBN) ; Farrokhpour, L ; Jahromi, M. Y ; Broumand, P ; Ahmadi, M. M ; Sharif University of Technology
2007
Abstract
In this study a new method of nonlinear dynamic analysis of structures is described. New one dimensional higher order elements have been used to more accurately model the behavior of the structure through computations on frame sections. In addition, more effects of periodic loading are accounted for in the element's powerful hysteretic loop model. © CIMNE, 2007