A5101917166- Advancements in Semiconductor Devices and Circuit Design
- Semiconductor materials and devices
- Low-power high-performance VLSI design
- VLSI and Analog Circuit Testing
- Adipose Tissue and Metabolism
- Quantum Computing Algorithms and Architecture
- Quantum-Dot Cellular Automata
- Quantum Information and Cryptography
- Nanowire Synthesis and Applications
- Radiation Effects in Electronics
- Exercise and Physiological Responses
- Nanoparticle-Based Drug Delivery
- Muscle metabolism and nutrition
- Health and Well-being Studies
- Integrated Circuits and Semiconductor Failure Analysis
- Interconnection Networks and Systems
- Growth Hormone and Insulin-like Growth Factors
- Regulation of Appetite and Obesity
- Adipokines, Inflammation, and Metabolic Diseases
- Electrospun Nanofibers in Biomedical Applications
- Nanoplatforms for cancer theranostics
- Digestive system and related health
- Advanced Memory and Neural Computing
- Tissue Engineering and Regenerative Medicine
- Erythropoietin and Anemia Treatment
Kashan University of Medical Sciences
2022
University at Buffalo, State University of New York
2020-2022
Islamic Azad University Central Tehran Branch
2016-2020
Sharif University of Technology
2017-2019
Qualcomm (United States)
2017
Northeastern University
2010-2013
Universidad del Noreste
2013
Boston University
2010-2011
Amirkabir University of Technology
2008
Autologous grafts, as the gold standard for vascular bypass procedures, associated with several problems that limit their usability, so tissue engineered vessels have been subject of an increasing number works. Nevertheless, gathering all desired characteristics scaffolds in same construct has a big challenge scientists. Herein, composite silk-based scaffold (CSVS) was proposed to consider mechanical, structural and biological requirements small-diameter scaffold. The scaffold's lumen...
To date, numerous iron-based nanostructures have been designed for cancer therapy applications. Although some of them were promising clinical applications, few efforts made to maximize the therapeutic index these carriers. Herein, PEGylated silica-coated iron oxide nanoparticles (PS-IONs) introduced as multipurpose stimuli-responsive co-delivery nanocarriers a combination dual-drug chemotherapy and photothermal therapy.Superparamagnetic synthesized via sonochemical method coated by thin...
Research in reversible logic is motivated by its application quantum computing as well promise extremely low power consumption elimination of dissipation due to information loss. In this paper we propose a set novel dual rail gates for online testable design. Experimental results show that our technique detects 100% single faults while reducing the area and number garbage outputs up 6.4X 4.6X, compared previously proposed techniques, respectively.
Reversibility as an inherent requirement of quantum computation motivates further research on reversible logic. Due to anticipated high failure rates for such technologies, thorough testing is a must these circuits. In this paper, we present compact test generation and application method circuits which achieves (100%) fault coverage can be adopted BIST implementations. method, the next pattern response circuit previous pattern. A algorithm minimize time achieve 100% also presented....
Reversible logic is a promising design methodology, particularly in the scope of quantum computing, for extremely low power consumption by elimination dissipation due to information loss. Anticipated high fault rates future technologies raise demand tolerance reversible logic. In this paper we propose masking techniques (to prevent error propagation) We present different implementations majority voters. Using voter insertion and taking advantage available non-functional outputs, are able...
Several emerging nano-technologies, including crossbar nano-architectures, have recently been studied as possible replacement or supplement to CMOS technology in the future. However, extreme process variation and high failure rates, mainly due atomic device sizes, are major challenges for nano-architectures. This article presents variation- defect-tolerant logic mapping on Since variation/defect-aware is an NP-hard problem, we introduce a set of Integer Linear Programming (ILP) formulations...
Reversible logic is a computation methodology with the promise of possibly zero-energy consumption by elimination power dissipation due to information loss. Furthermore, reversible has direct application in quantum computing. However, since fault models circuits are fundamentally different from those used for CMOS VLSI technologies, therefore new testing approaches must be developed test circuits. It been shown that two types faults form gate missing and repeating more likely occur circuits,...
Programmable nano-architectures fabricated based on bottom-up self-assembly process are alternative for CMOS technology to overcome physical barriers as well increased lithography-based fabrication costs in downscaling. Extreme variation and high failure rate due nondeter-ministic self assembly pose serious challenges logic implementation this technology. In paper, we analyze the effect of variations mapped designs propose an efficient mapping method reduce effects crossbar...
Programmable nano-architectures fabricated based on bottom-up self-assembly process are alternative for CMOS technology to overcome physical barriers as well increased lithography-based fabrication costs in downscaling. Extreme variation and high failure rate due nondeter-ministic self assembly pose serious challenges logic implementation this technology. In paper, we analyze the effect of variations mapped designs propose an efficient mapping method reduce effects crossbar...
Reversible logic is one of the promising domain for ultra low power consumption by eliminating dissipation due to information loss. In addition, quantum computing systems inherently have property reversibility as their mechanism operations. this paper we propose a set novel reversible blocks based on dual-rail coding provide online multiple fault detection capabilities. We also flow map any these building block gates. Such implementation provides all single faults and most faults....
Obesity is known as one of the major causes epidemiologic diseases worldwide; therefore, introduction treatment strategies by medical professionals, such use various medicines and exercise programs to reduce fat or prevent obesity, on rise. Recently, researchers have shown special interest in assessing effect lipolytic adenosine vitamin D deficiency, well exercise, decreasing body percentage.This study has been designed examine D3 injections, conjunction with high-intensity interval training...
High runtime failure rate as a result of reliability detractors is one the major challenges for scaled-CMOS well emerging nanotechnologies. This results in multiple faults during life time operation. In this paper we propose self-timed asynchronous architecture which can tolerate transient bit-flips. has property, making it robust against delay variations caused by increased process at nanoscale. The proposed achieve 100% tolerance single more than 93% less 10 <sup...
Programmable nano-architectures fabricated using bottom up self assembly are promising alternatives to CMOS circuits. However, extreme process variation and high defect rate major challenges in this nanotechnology. In paper, we present aware logic mapping algorithms for these nano-architectures. Simulation results show that the proposed transformations based on them can improve manufacturing yield by 65% with only 12.5% area overhead.
Emerging molecular based nanoelectronics is a promising alternatives for current CMOS technology to reduce manufacturing costs and achieve higher levels of integration. Extreme parameter variations resulted from nondeterministic nanofabrication can seriously affect the correct functionality performance circuits implemented in this technology. In paper, we introduce modifications nano-PLA, major nano-architecture, immune it against extreme by using self-timed local control signaling within...
The Effect of Body Part-dependent Resistance Training on Lipid Profiles and Hormonal Levels in Young Males
The Effects of Eight Weeks Upper Body and Lower Resistance Training on Plasma Adiponectin Leptin Levels in Young Men
Background and Objective: Adipose tissue secrets various hormones including adiponectin, which is closely related to weight control energy, balance.This study investigated the effects of resistance training on testosterone cortisol levels in untrained men.Methods: Forty men (mean age 23.8±2.66years, mean 67.43 ± 4.96 kg) were randomly equally assigned into groups upper extremity training, lower combined control.The subjects performed eight weeks three sessions per week (five sets 60-85% one...