Documents dont l'auteur est "Nabavi, Morteza"

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Altoobaji, I., Hassan, A., Ali, M., Nabavi, M., Audet, Y., & Lakhssassi, A. (2023). A Fully Integrated 0.6 Gbps Data Communication System for Inductive-Based Digital Isolator with 0.8 ns Propagation Delay and 10(-15) BER. Electronics, 12(15), 3336 (15 pages). Lien externe

Assaf, H., Savaria, Y., Ali, M., Nabavi, M., & Sawan, M. (2023). A Memristive Cell with Long Retention Time in 65 nm CMOS Technology. Advanced Electronic Materials, 9(6), 13 pages. Lien externe

Abadi, A. F. E., Asghari, S. A., Marvasti, M. B., Abaei, G., Nabavi, M., & Savaria, Y. (2022). RLBEEP: Reinforcement-Learning-Based Energy Efficient Control and Routing Protocol for Wireless Sensor Networks. IEEE Access, 10, 44123-44135. Lien externe

Ali, M., Hassan, A., Honarparvar, M., Nabavi, M., Audet, Y., Sawan, M., & Savaria, Y. (2022). A Versatile SoC/SiP Sensor Interface for Industrial Applications: Implementation Challenges. IEEE Access, 10, 24540-24555. Lien externe

Amer, M., Ali, M., Abuelnasr, A., Hassan, A., Nabavi, M., Savaria, Y., & Sawan, M. (juin 2020). Fully integrated dual-channel gate driver and area efficient pid compensator for surge tolerant power sensor interface [Communication écrite]. 18th IEEE International New Circuits and Systems Conference (NEWCAS 2020), Montréal, Qc, Canada. Lien externe

Altoobaji, I., Ali, M., Hassan, A., Nabavi, M., Audet, Y., & Lakhssassi, A. (août 2020). A Fully Integrated On-Chip Inductive Digital Isolator: Design Investigation and Simulation [Communication écrite]. 63rd IEEE International Midwest Symposium on Circuits and Systems (MWSCAS 2020), Springfield, MA, USA. Lien externe

Abuelnasr, A., Ali, M., Amer, M., Nabavi, M., Hassan, A., Gosselin, B., & Savaria, Y. (octobre 2020). Self-Adjusting Deadtime Generator for High-Efficiency High-Voltage Switched-Mode Power Amplifiers [Communication écrite]. IEEE International Symposium on Circuits and Systems (ISCAS 2020), Sevilla, Spain (5 pages). Lien externe

Ali, M., Nabavi, M., Hassan, A., Honarparvar, M., Savaria, Y., & Sawan, M. (décembre 2019). A versatile SoC/SiP sensor interface for industrial applications: Design considerations [Communication écrite]. 31st International Conference on Microelectronics (ICM 2019), Cairo, Egypt. Lien externe

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Ettahri, O., Oukaira, A., Ali, M., Hassan, A., Nabavi, M., Savaria, Y., & Lakhssassi, A. (2020). A Real-Time Thermal Monitoring System Intended for Embedded Sensors Interfaces. Sensors, 20(19), 5657 (16 pages). Disponible

El-Zarif, N., Ali, M., Hassan, A., Nabavi, M., Fayomi, C. J. B., & Savaria, Y. (février 2020). A High Efficiency and Fast Response PLL Based Buck Converter: Implementation and Simulation [Communication écrite]. IEEE 11th Latin American Symposium on Circuits & Systems (LASCAS 2020), San Jose, Costa Rica (4 pages). Lien externe

Esmaeilzadeh, M., Ali, M., Hassan, A., Nabavi, M., Gosselin, B., & Sawan, M. (octobre 2020). A tunable CMOS thyristor-based pulse generator for integrated sensor interface applications [Communication écrite]. 52nd IEEE International Symposium on Circuits and Systems (ISCAS 2020) (5 pages). Lien externe

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Faraji, A., Sadrossadat, S. A., Moftakharzadeh, A., Nabavi, M., & Savaria, Y. (2023). Deep Independent Recurrent Neural Network Technique for Modeling Transient Behavior of Nonlinear Circuits. IEEE Transactions on Components, Packaging and Manufacturing Technology, 13(5), 688-699. Lien externe

Faraji, A., Sadrossadat, S. A., Yazdian-Dehkordi, M., Nabavi, M., & Savaria, Y. (2022). A Hybrid Approach Based on Recurrent Neural Network for Macromodeling of Nonlinear Electronic Circuits. IEEE Access, 10, 127996-128006. Lien externe

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Karimi, M., Ali, M., Nabavi, M., Hassan, A., Amer, M., Sawan, M., & Gosselin, B. (octobre 2020). A versatile non-overlapping signal generator for efficient power-converters operation [Communication écrite]. 52nd IEEE International Symposium on Circuits and Systems (ISCAS 2020) (5 pages). Lien externe

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Mirfakhraei, S. S., Audet, Y., Hassan, A., Ali, M., Nabavi, M., & Sawan, M. (juin 2020). A CMOS MAGFET-based programmable isolation amplifier [Communication écrite]. 18th IEEE International New Circuits and Systems Conference (NEWCAS 2020), Montréal, Qc, Canada. Lien externe

Mirfakhraei, S. S., Audet, Y., Nabavi, M., Youness, B., Ali, M., Hassan, A., & Sawan, M. (octobre 2020). Wide Dynamic Range Front-End Programmable Isolation Amplifier using Integrated CMOS Hall Effect Sensor [Communication écrite]. IEEE International Symposium on Circuits and Systems (ISCAS 2020), Sevilla, Spain (5 pages). Lien externe

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Noshahr, F. H., Nabavi, M., Gosselin, B., & Sawan, M. (2021). Low-Cutoff Frequency Reduction in Neural Amplifiers: Analysis and Implementation in CMOS 65 nm. Frontiers in Neuroscience, 15, 667846 (14 pages). Lien externe

Noshahr, F. H., Nabavi, M., & Sawan, M. (2020). Multi-channel neural recording implants: A review. Sensors (Switzerland), 20(3), 29 pages. Lien externe

Noshahr, F. H., Nabavi, M., & Sawan, M. (novembre 2019). A 2.77 w, 80 ppm/C temperature coefficient voltage reference for biomedical implants [Communication écrite]. 26th IEEE International Conference on Electronics, Circuits and Systems (ICECS 2019), Genoa, Italy. Lien externe

Nabavi, M., Shams, M., & Sawan, M. (novembre 2018). Temperature Independent Subthreshold Circuits Design [Communication écrite]. International SoC Design Conference (ISOCC 2018), Daegu, South Korea (2 pages). Lien externe

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Qavamy, Z., Ghavami, B., Nabavi, M., & Savaria, Y. (août 2021). Non-parametric Statistical Static Timing Analysis based on Improved Parallel Monte Carlo [Communication écrite]. IEEE International Midwest Symposium on Circuits and Systems (MWSCAS 2021), Lansing, Michigan. Lien externe

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Sajjadi, S. A., Sadrossadat, S. A., Moftakharzadeh, A., Nabavi, M., & Sawan, M. (2024). Yield maximization of flip-flop circuits based on deep neural network and polyhedral estimation of nonlinear constraints. IEEE Access, 12, 113944-113959. Disponible

Sajjadi, S. A., Sadrossadat, S. A., Moftakharzadeh, A., Nabavi, M., & Sawan, M. (2024). DNN-Based Optimization to Significantly Speed Up and Increase the Accuracy of Electronic Circuit Design. IEEE Transactions on Circuits and Systems I: Regular Papers, 12 pages. Lien externe

Shams, N., Kakhki, A. P., Nabavi, M., & Nabki, F. (2023). An OOK and Binary FSK Reconfigurable Dual-Band Noncoherent IR-UWB Receiver Supporting Ternary Signaling. IEEE Transactions on Very Large Scale Integration (VLSI) Systems, 31(5), 644-657. Lien externe

Saeidi, R., Nabavi, M., & Savaria, Y. (août 2020). SRAM Security and Vulnerability to Hardware Trojan: Design Considerations [Communication écrite]. 63rd IEEE International Midwest Symposium on Circuits and Systems, (MWSCAS 2020), Springfield, MA, USA. Lien externe

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Taghizadeh, R. G., Marvasti, M. B., Asghari, S. A., Taghizadeh, R. G., Nabavi, M., & Savaria, Y. (2021). IBU: An In-block Update Address Mapping Scheme for Solid-state Drives. IEEE Access, 10, 4934-4947. Lien externe