Alper Demir
#110,301
Most Influential Person Now
Researcher
Alper Demir's AcademicInfluence.com Rankings
Alper Demircomputer-science Degrees
Computer Science
#12003
World Rank
#12780
Historical Rank
Computational Linguistics
#3027
World Rank
#3062
Historical Rank
Machine Learning
#5504
World Rank
#5578
Historical Rank
Artificial Intelligence
#5949
World Rank
#6040
Historical Rank
Download Badge
Computer Science
Why Is Alper Demir Influential?
(Suggest an Edit or Addition)According to Wikipedia, Alper Demir is a Professor of Electrical Engineering at Koç University in Istanbul, Turkey. He was named a Fellow of the Institute of Electrical and Electronics Engineers in 2012 for his contributions to stochastic modeling and analysis of phase noise.
Alper Demir's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Phase noise in oscillators: a unifying theory and numerical methods for characterization (2000) (1187)
- Phase noise and timing jitter in oscillators with colored-noise sources (2002) (175)
- Phase noise in oscillators: a unifying theory and numerical methods for characterisation (1998) (159)
- Computing Timing Jitter From Phase Noise Spectra for Oscillators and Phase-Locked Loops With White and$1/f$Noise (2006) (156)
- Analysis and Simulation of Noise in Nonlinear Electronic Circuits and Systems (1997) (142)
- A reliable and efficient procedure for oscillator PPV computation, with phase noise macromodeling applications (2003) (132)
- Time-domain Non-monte Carlo Noise Simulation For Nonlinear Dynamic Circuits With Arbitrary Excitations (1994) (128)
- Phase noise in oscillators: DAEs and colored noise sources (1998) (97)
- Floquet theory and non‐linear perturbation analysis for oscillators with differential‐algebraic equations (2000) (94)
- Nonlinear Phase Noise in Optical-Fiber-Communication Systems (2007) (72)
- Phase noise and timing jitter in oscillators (1998) (40)
- Computing phase noise eigenfunctions directly from steady-state Jacobian matrices (2000) (37)
- A stochastic integral equation method for modeling the rough surface effect on interconnect capacitance (2004) (36)
- Fully nonlinear oscillator noise analysis: an oscillator with no asymptotic phase (2007) (32)
- Quadratic Approximations for the Isochrons of Oscillators: A General Theory, Advanced Numerical Methods, and Accurate Phase Computations (2010) (30)
- Nonlinear Nanomechanical Mass Spectrometry at the Single-Nanoparticle Level. (2019) (26)
- SAMURAI: An accurate method for modelling and simulating non-stationary Random Telegraph Noise in SRAMs (2011) (25)
- A video driver system designed using a top-down, constraint-driven methodology (1996) (22)
- Fully nonlinear oscillator noise analysis: an oscillator with no asymptotic phase: Research Articles (2007) (22)
- Tools and methodology for RF IC design (1998) (21)
- Accurate Prediction of Random Telegraph Noise Effects in SRAMs and DRAMs (2013) (21)
- On Phase Models for Oscillators (2011) (19)
- Modeling and simulation of the interference due to digital switching in mixed-signal ICs (1999) (19)
- Fundamental Sensitivity Limitations of Nanomechanical Resonant Sensors Due to Thermomechanical Noise (2020) (18)
- Fast Monte Carlo Estimation of Timing Yield With Importance Sampling and Transistor-Level Circuit Simulation (2010) (18)
- CAD for RF circuits (2001) (18)
- Smart Monte Carlo for Yield Estimation (2006) (17)
- The Krylov-proportionate normalized least mean fourth approach: Formulation and performance analysis (2015) (15)
- On the Validity of Orthogonally Decomposed Perturbations in Phase Noise Analysis (2005) (15)
- MUSTARD: A coupled, stochastic/deterministic, discrete/continuous technique for predicting the impact of Random Telegraph Noise on SRAMs and DRAMs (2011) (15)
- Automatic PMD Compensation by Unsupervised Polarization Diversity Combining Coherent Receivers (2008) (13)
- Unified Modeling of Familial Mediterranean Fever and Cryopyrin Associated Periodic Syndromes (2015) (13)
- Modeling and analysis of (nonstationary) low frequency noise in nano devices: A synergistic approach based on stochastic chemical kinetics (2013) (12)
- Phase equations for quasi-periodic oscillators (2010) (12)
- Characterizing and exploiting task load variability and correlation for energy management in multi core systems (2005) (11)
- Stochastic Modeling and Optimization for Energy Management in Multicore Systems: A Video Decoding Case Study (2008) (11)
- Modeling and analysis of nonstationary low-frequency noise in circuit simulators: Enabling non Monte Carlo techniques (2014) (11)
- Adaptive Receiver Structures for Fiber Communication Systems Employing Polarization-Division Multiplexing (2009) (10)
- Adaptive Receiver Structures for Fiber Communication Systems Employing Polarization Division Multiplexing: High Symbol Rate Case (2010) (9)
- Noise analysis for optical fiber communication systems (2003) (9)
- Frequency fluctuations in nanomechanical silicon nitride string resonators (2020) (8)
- Understanding fundamental trade-offs in nanomechanical resonant sensors (2020) (8)
- Analysis of Low-Frequency Noise in Switched MOSFET Circuits: Revisited and Clarified (2015) (8)
- Oscillator Noise Analysis (2005) (7)
- Spike timing precision of neuronal circuits (2018) (7)
- Modeling and Simulation of Low-Frequency Noise in Nano Devices: Stochastically Correct and Carefully Crafted Numerical Techniques (2015) (7)
- CIRSIUM: A circuit simulator in MATLAB® with object oriented design (2013) (7)
- Phase computations and phase models for discrete molecular oscillators (2012) (6)
- Computing quadratic approximations for the isochrons of oscillators: A general theory and advanced numerical methods (2009) (6)
- Noise in Neuronal and Electronic Circuits: A General Modeling Framework and Non-Monte Carlo Simulation Techniques (2017) (5)
- Non-Monte Carlo Analysis of Low-Frequency Noise: Exposition of Intricate Nonstationary Behavior and Comparison With Legacy Models (2016) (5)
- Time-Domain Non-Monte Carlo Noise Simulation (1998) (5)
- Computing phase noise eigenfunctions directly from harmonic balance/shooting matrices (2001) (5)
- Stochastic Logical Effort : Designing for Timing Yield on the Back of an Envelope (5)
- Modeling and simulation of noise in analog/mixed-signal communication systems (1999) (5)
- Noise Analysis Problems and Techniques for RF Electronic Circuits and Optical Fiber Communication Systems (2007) (4)
- Numerical Analysis of Multidomain Systems: Coupled Nonlinear PDEs and DAEs With Noise (2018) (4)
- ProteinAC: a frequency domain technique for analyzing protein dynamics (2018) (4)
- Non-Monte Carlo formulations and computational techniques for the stochastic non-linear Schrödinger equation (2004) (4)
- Estimating noise in RF systems (1998) (4)
- Phase-Locked Loop based Resonant Sensors: A Rigorous Theory and General Analysis Framework for Deciphering Fundamental Sensitivity Limitations due to Noise (2019) (4)
- Emulation and Inversion of Polarization Mode Dispersion: A Lumped System and Pade Approximation Perspective (2008) (4)
- Stochastic modeling and performance evaluation for digital clock and data recovery circuits (2000) (3)
- Simulation of noise in neurons and neuronal circuits (2015) (3)
- Fast Monte Carlo Estimation of Timing Yield: Importance Sampling with Stochastic Logical Effort (ISLE) (2008) (2)
- Phase noise in oscillators as differential-algebraic systems with colored noise sources (2004) (2)
- A Top-Down, Constraint-Driven Design Methodology for Analog ICs (1997) (2)
- Nonlinear Phase Noise in (2007) (2)
- Simulation of temporal stochastic phenomena in electronic and biological systems: A comparative review, examples and synergies (2013) (1)
- Finite-length signal quantization using discrete optimization (2000) (1)
- Adaptive Time-Resolved Mass Spectrometry With Nanomechanical Resonant Sensors (2021) (1)
- Tax evading incentives and compromising (2008) (1)
- Modeling and analysis of communication circuit performance using Markov chains and efficient graph representations (2000) (1)
- Random Input Sampling for Complex Models Using Markov Chain Monte Carlo (2012) (1)
- Nonstationary Low Frequency Noise in Switched MOSFET Circuits & Circuit Simulation (2019) (1)
- Allostery in Proteins as Point-to-Point Telecommunication in a Network: Frequency Decomposed Signal-to-Noise Ratio and Channel Capacity Analysis (2021) (0)
- Architectural Mapping and Optimization (1997) (0)
- MSE Analysis of the Krylov-proportionate NLMS and NLMF Algorithms (2009) (0)
- Simulation and Behavioral Modeling (1997) (0)
- Behavioral Modeling and Simulation of Phase-Locked Loops (1998) (0)
- Resonance frequency tracking schemes for micro- and nanomechanical resonators (2023) (0)
- Advanced Multimedia Communication Systems (2002) (0)
- Video Driver Design Example (1997) (0)
- Current Source Digital-To-Analog Converter Design Example (1997) (0)
- MATHEMATICAL MODELING OF BEHÇET'S DISEASE: A DYNAMICAL SYSTEMS APPROACH (2015) (0)
- Overview of Noise Simulation for Nonlinear Electronic Circuits (1998) (0)
- Spike timing precision of neuronal circuits (2018) (0)
- Stochastic Logical Effort and Smart Monte Carlo for Timing Yield Estimation and Optimization (2006) (0)
- DSP Based PMD Emulators for Built-in Testing of Coherent Optical Receivers (2012) (0)
- Σ-Δ Analog-To-Digital Converter Design Example (1997) (0)
- Optimal coarse quantization of finite-length signals using integer programming (2000) (0)
- Noise in Free Running Oscillators (1998) (0)
- Mathematical Challengesin Global Positioning Systems ( GPS ) August 16-18 , 2000 (2000) (0)
- Oscillator Noise Analysis (invited) (2005) (0)
- Constraint-Driven Layout Synthesis (1997) (0)
- Bottom-Up Verification (1997) (0)
- Erratum: “Understanding fundamental trade-offs in nanomechanical resonant sensors” [J. Appl. Phys. 129, 044503 (2021)] (2021) (0)
This paper list is powered by the following services:
Other Resources About Alper Demir
What Schools Are Affiliated With Alper Demir?
Alper Demir is affiliated with the following schools:
