{"id":5086,"date":"2022-11-18T14:54:22","date_gmt":"2022-11-18T19:54:22","guid":{"rendered":"https:\/\/www.hajim.rochester.edu\/ece\/sites\/laics\/?page_id=5086"},"modified":"2023-10-26T17:06:22","modified_gmt":"2023-10-26T21:06:22","slug":"all-publications","status":"publish","type":"page","link":"https:\/\/www.hajim.rochester.edu\/ece\/sites\/laics\/all-publications\/","title":{"rendered":"Publications"},"content":{"rendered":"<h3>Selected Publications (LAICS)<\/h3>\n<ul>\n<li>W. Wang, L. Lu, L. King, Y. Liu, M. Gong, S. Li, and H. Wu, &#8220;Cascaded subarray design and control method for power efficient, thermal crosstalk optimized optical phased array,&#8221; Opt. Express 31, 37381-37394 (2023)<\/li>\n<li>W. Hou, A. Azizimanesh, A. Dey, Y. Yang, W. Wang, C. Shao, H. Wu, H. Askari, S. Singh, and S. M. Wu,, \u201cStrain Engineering for High-Performance Phase Change Memristors\u201d, to appear in <em>Nature Electronics<\/em>, 2023.<\/li>\n<li>K.R. Vengalam, Y. Liu, T.Geng, H. Wu, and M. Huang, \u201cSupporting Energy-Based Learning with an Ising Machine Substrate: A Case Study on RBM\u201d, to be presented in <em>IEEE\/ACM International Symposium on Microarchitectures<\/em> (MICRO), 2023.<\/li>\n<li>M. Gong and H. Wu, \u201cHighly Over-Coupled Microring Phase Shifter and Its Application in Ring Assisted Mach\u2013Zehnder Modulator\u201d, <em>IEEE Journal of Lightwave Technologies<\/em>, early access publication, 2023.<\/li>\n<li>W. Wang, Y. Liu, L. King, L. Lu, S. Li, and H. Wu, \u201cA Power-Efficient, Thermal-Crosstalk Suppressed Method for Optical Phased Array,\u201d <em>Conference on Laser and Electro Optics<\/em> (CLEO), 2023.<\/li>\n<li>M. Gong and H. Wu, \u201cA Minimal-Structured Ring Assisted Mach-Zehnder Modulator\u201d, <em>IEEE International Conference on Group IV Photonics<\/em>, 2023.<\/li>\n<li>J. Gao, K. Zhu, and H. Wu, \u201cA 50-GHz bandwidth traveling wave Mach-Zehnder modulator with built-in feedback equalization,\u201d <em>IEEE Journal of Lightwave Technologies, <\/em>40(12):3872-3881, 2022.<\/li>\n<li>Wu, et al., \u201cHeterogeneous Integrated Sparse Optical Phased Array for Free-Space Optical Communication,\u201d <em>IEEE Research and Applications of Photonics in Defense<\/em> (RAPID) Conference (2021).<\/li>\n<li>M. Gong, W. Wang, L. Lu, and H. Wu, \u201cA Silicon Photonic Ring-Assisted Mach-Zehnder Modulator with Strongly-Coupled Rings,\u201d <em>IEEE International Photonics Conference<\/em> (2021).<\/li>\n<li>X. Wang, W. Wang, Y. Li, X. Fu, S. Chen, F. Smith, H. Wu, and X. Cheng, \u201cLow power and compact silicon thermo-optic switch based on suspended phase arm without support beams,\u201d <em>IEEE Photonic Technology<\/em> <em>Letters<\/em> (2020).<\/li>\n<li>M. Gong and H. Wu, \u201cDesign of Nonlinear Optical Ring Resonators,\u201d\u00a0<i>Conference on Laser and Electro Optics<\/i>\u00a0(CLEO), 2019.<\/li>\n<li>F. Smith, W. Wang, and H. Wu, \u201cSparse Optical Phased Array Design,\u201d\u00a0<i>International Conference on Group IV Photonics<\/i>, 2019.<\/li>\n<li>Afoakwa R., Lu L., Wu H., Huang M., \u201cTo Stack or Not to Stack,\u201d\u00a0<i>International Conference on Parallel Architectures and Compilation Techniques<\/i>\u00a0(PACT), 2019.<\/li>\n<li>L. Lu, R. Afoakwa, M. Huang, and H. Wu, \u201cConcurrent Multipoint-to-Multipoint Communication on Interposer Channels,\u201d\u00a0<i>International Symposium on Low Power Electronics and Design<\/i>\u00a0(ISLPED), 2019.<\/li>\n<li>F. Smith, W. Wang, X. Wang, Y. Li, X. Cheng, and H. Wu, \u201cA Design Study of Efficiency Enhancement in Silicon Photonic Thermo-Optic Phase Shifters,\u201d\u00a0<i>IEEE Optical Interconnects Conference<\/i>, 2019.<\/li>\n<li>F. Smith and H. Wu, \u201cPhotonic Phased Array Design by Synthesis,\u201d\u00a0<i>International Conference on Group IV Photonics<\/i>, 2018.<\/li>\n<li>M. Gong and H. Wu, \u201cA Microring-based Time-Division Demultiplexer,\u201d\u00a0<i>International Conference on Group IV Photonics<\/i>, 2018.<\/li>\n<li>M. Gong, F. Smith and H. Wu, \u201cA Differential Microring Time-Division Demultiplexer,\u201d\u00a0<i>IEEE Optical Interconnect Conference<\/i>, 2018.<\/li>\n<li>L. Lu, Y. Wang, and H. Wu, \u201cAn Energy-Efficient High-Swing PAM-4 Voltage-Mode Transmiter,\u201d\u00a0<i>International Symposium on Low Power Electronics and Design<\/i>\u00a0(ISLPED), 2018.<\/li>\n<li>P. Ji, J. Gao, W. Xu, Y. Sun, W. He, and H. Wu, \u201cElectronic-Photonic Circuit Design and Crosstalk Modeling for a High Density Multi-Lane MZM Array,\u201d\u00a0<i>IEEE International Symposium on Circuits and Systems<\/i>\u00a0(ISCAS), 2018.<\/li>\n<li>R. Afoakwa, L. Lu, H. Wu, and M. Huang, \u201cHigh Swing Pulse-Amplitude Modulation of Transmission Line Links for On-Chip Communication,\u201d\u00a0<i>International Symposium on Circuits and Systems<\/i>\u00a0(ISCAS), 2018.<\/li>\n<li>Y. Wang and H. Wu, \u201cDesign high bandwidth-density, low latency and energy efficient on-chip interconnect,\u201d\u00a0<i>International Symposium on Low Power Electronics and Design<\/i>\u00a0(ISLPED), 2017.<\/li>\n<li>W. Xu, J. Gao, P. Ji, Y. Sun, W. He, and H. Wu, \u201cA PAM-4 optical receiver based on a silicon photonic quantizer,\u201d\u00a0<i>IEEE 14th International Conference on Group IV Photonics<\/i>, 2017.<\/li>\n<li>J. Gao and H. Wu, \u201cA Multi-Function Mach Zehnder Modulator for Pulse Shaping and Generation,\u201d\u00a0<i>Optics Express<\/i>, 24(19): 22239-22249, 2016.<\/li>\n<li>I. Savidis, B. Ciftcioglu, J. Xu, J. Hu, M. Jain, R. Berman, J. Xue, P. Liu, D. Moore, G. Wicks, M. Huang, H. Wu, and E. G. Friedman, \u201cHeterogeneous 3-D circuits: Integrating free-space optics with CMOS,\u201d\u00a0<i>Microelectronics Journal<\/i>, 50(c):66-75, April 2016.<\/li>\n<li>J. Gao, Y. Sun, W. He, and H. Wu, \u201cA Cross-Layer Multi-Physics Design Flow Electronic-Photonic Integrated Circuit,\u201d\u00a0<i>IEEE Photonic Conference<\/i>, 2016.<\/li>\n<li>J. Gao and H. Wu, \u201cAn Equalized Traveling-Wave Electrode Design for Mach-Zehnder Modulator,\u201d\u00a0<i>IEEE Optical Interconnect Conference<\/i>, 2016.<\/li>\n<li>J. Gao and H. Wu, \u201cA high-speed, high-sensitivity silicon avalanche photodiode in 130-nm CMOS,\u201d\u00a0<i>IEEE Photonic Conference<\/i>, 2015.<\/li>\n<li>Y. Wang and H. Wu, \u201cA K-Band Pulse Radar Transceiver with Highly Digital Closed-Loop Time-of-Flight Measurement,\u201d\u00a0<i>IEEE Asian Solid-State Circuits Conference<\/i>, 2015.<\/li>\n<li>J. Xu, J. Hu, B. Ciftcioglu, and Hui Wu, \u201cA 4-15-GHz ring oscillator based injection-locked frequency multiplier with built-in harmonic generation,\u201d\u00a0<i>IEEE Custom Integrated Circuits Conference<\/i>\u00a0(CICC), 1(4): 22-25, Sept. 2013.<\/li>\n<li>J. Hu, Y. Zhu, S. Wang, and H. Wu, \u201cAn Energy-Efficient IR-UWB Receiver Based on Distributed Pulse Correlator,\u201d\u00a0<i>IEEE Transactions on Microwave Theory and Techniques<\/i>, 61(6):2447-2459, May 2013.<\/li>\n<li>J. Hu, J. Xu, and H. Wu, \u201cA 25-Gbps 8-ps\/mm Transmission Line Based Interconnect for On-Chip Communications in Multi-Core Chips,\u201d\u00a0<i>International Microwave Symposium<\/i>, 2013.<\/li>\n<li>S. Wang and H. Wu, \u201cMulti-wavelength microring-based optical pulse train generator,\u201d\u00a0<i>Conference on Lasers and Electro-Optics (CLEO)<\/i>, 2012.<\/li>\n<li>H. Wu, B. Ciftcioglu, R. Berman, J. Hu, S. Wang, I. Savidis, M. Jain, D. Moore, M. Huang, E. Friedman, G. Wicks, \u201cChip-Scale Demonstration of 3-D integrated Intra-Chip Free-Space Optical Interconnect,\u201d\u00a0<i>Proc. SPIE 8265<\/i>, 2012.<\/li>\n<li>J. Gao, R. Berman, M. Jain, D. Moore, G. Wicks, M. Huang, E.G. Friedman, and H. Wu, \u201cRecent progress on 3-D integrated intra-chip free-space optical interconnect,\u201d\u00a0<i>IEEE Optical Interconnects Conferencek<\/i>, 2012.<\/li>\n<li>A. Carpenter, J. Hu, J. Xu, M. Huang, H. Wu, and P. Liu, \u201cUsing Transmission Lines for Global On-Chip Communication,\u201d\u00a0<i>IEEE Journal on Emerging and Selected Topics in Circuits and Systems<\/i>, 2(2):183-193, 2012.<\/li>\n<li>B. Ciftcioglu, R. Berman, S. Wang, J. Hu, I. Savidis, M. Jain, D. Moore, M. Huang, E.G. Friedman, G. Wicks, and H. Wu, \u201c3-D Integrated Heterogeneous Intra-chip Free-space Optical Interconnect,\u201d\u00a0<i>Optics Express<\/i>, vol. 20, no. 4, pp. 4331-4345, Febebruary 2012.<\/li>\n<li>H. Wu, B. Ciftcioglu, R. Berman, J. Hu, S. Wang, I. Savidis, M. Jain, D. Moore, M. Huang, E. Friedman, G. Wicks, \u201cChip-Scale Demonstration of 3-D Integrated Intra-Chip Free-Space Optical Interconnect (Invited Paper),\u201d\u00a0<i>SPIE Photonics West<\/i>, January 2012.<\/li>\n<li>H. Dery, H. Wu, B. Ciftcioglu, M. Huang, Y. Song, R. Kawakami, J. Shi, I. Krivorotov, D. Telesca, I. Zutic, and L. J. Sham, \u201cNanospintronics based on Magnetologic Gates,\u201d\u00a0<i>IEEE Transactions on Electron Devices<\/i>, vol. 59, no. 1, January 2012.<\/li>\n<li>S. Wang and H. Wu, \u201cExperimental demonstration of microring-based optical pulse train generator,\u201d\u00a0<i>Optics Express<\/i>, vol. 19, no. 17, pp. 16259-16265, August 2011.<\/li>\n<li>Shang Wang and Hui Wu, \u201cExperimental Demonstration of Microring-based Optical Pulse Train Generator,\u201d\u00a0<i>IEEE Photonics Conference<\/i>, August 2011.<\/li>\n<li>A. Carpenter, J. Hu, M. Huang, H. Wu, and Peng Liu, \u201cA Design Space Exploration of Transmission-Line Links for On-Chip Interconnect,\u201d\u00a0<i>International Symposium on Low Power Electronics and Design<\/i>, August 2011.<\/li>\n<li>H. Dery, H. Wu, B. Ciftcioglu, M. Huang, Y. Song, R. Kawakami, J. Shi, I. Krivorotov, D. Telesca, I. Zutic, and Lu J. Sham, \u201cSpintronic nanoelectronics using graphene based magneto-logic gates\u201d,\u00a0<i>Spintronics IV in the SPIE NanoScience + Engineering Conference<\/i>, August 2011.<\/li>\n<li>A. Carpenter, J. Hu, J. Xu, M. Huang, and H. Wu, \u201cA Case for Globally Shared-Medium On-Chip Interconnect,\u201d\u00a0<i>International Symposium on Computer Architecture<\/i>, June 2011.<\/li>\n<li>H. Dery, B. Ciftcioglu, Y. Song, H. Wu, M. Huang, R. Kawakami, J. Shi,I. Krivorotov, I. Zutic, and L. J. Sham, \u201cSpintronic Search Engines\u201d,\u00a0<i>IEEE Device Research Conference<\/i>, June 2011.<\/li>\n<li>H. Wu, \u201c3-D Integrated Intra-Chip Free-Space Optical Interconnect (Invited)\u201d,\u00a0<i>IEEE Photonic Society High Speed Workshop<\/i>, May 2011.<\/li>\n<li>B. Ciftcioglu, J. Hu, R. Berman, Z. Darling, J. Zhang, S. Wang, M. Jain, J. Xue, I. Savidis, A. Garg, M. Huang, E. Friedman, G. Wicks, D. Moore, and H. Wu, \u201cAn 3-D Integrated Intra-Chip Free-Space Optical Interconnect,\u201d\u00a0<i>IEEE Photonic Technology Letters<\/i>, vol. 23, no. 3, pp. 164-166, February 2011.<\/li>\n<li>B. Ciftcioglu, J. Zhang, R. Sobolewski, and H. Wu, \u201cAn 850-nm Normal-Incidence Germanium Metal-Semiconductor-Metal Photodetector With 13-GHz Bandwidth and 8- A Dark Current\u201d,\u00a0<i>IEEE Photonic Technology Letters<\/i>, vol. 20, no. 24, pp. 2069-2071, December 2010.<\/li>\n<li>B. Ciftcioglu, R. Berman, J. Zhang, Z. Darling, A. Garg, J. Hu, M. Jain, P. Liu, I. Savidis, S. Wang, J. Xue, E. Friedman, M. Huang, D. Moore, G. Wicks, H. Wu, \u201cInitial Results of Prototyping a 3D Integrated Intra-Chip Free-Space Optical Interconnect\u201d,\u00a0<i>Workshop on the Interaction between Nanophotonic Devices and Systems<\/i>, December 2010.<\/li>\n<li>S. Wang, B. Ciftcioglu, and H. Wu, \u201cMicroring-Based Optical Pulse Train Generator\u201d,\u00a0<i>Optics Express<\/i>, no. 18, pp. 19314-19323, September 2010.<\/li>\n<li>J. Xue, A. Garg, B. Ciftcioglu, S. Wang, J. Hu, I. Savidis, M. Jain, M. Huang, H. Wu, E. Friedman, G. Wicks, and D. Moore, \u201cAn Intra-Chip Free-Space Optical Interconnect\u201d, 37th International Symposium on Computer Architecture (ISCA), June 2010.<\/li>\n<li>B. Ciftcioglu, J. Xue, J. Hu, I. Savidis, S. Wang, M. Jain, A. Garg, J. Zhang, R. Berman, Z. Darling, M. Huang, E. Friedman, G. Wicks, D. Moore, and H. Wu, \u201c3-D Integrated Intra-Chip Free-Space Optical Interconnect\u201d,\u00a0<i>2010 IEEE International Solid-State Circuits Conference (ISSCC) Student Research Forum<\/i>, February 2010.<\/li>\n<li>J. Hu, Y. Zhu, S. Wang, and H. Wu, \u201cEnergy Efficient, Reconfigurable, Distributed Pulse Generation and Detection in UWB Impulse Radios\u201d, pp.773-777,\u00a0<i>IEEE International Conference on Ultra-Wideband<\/i>, September 2009.<\/li>\n<li>B. Ciftcioglu, L. Zhang, J. Zhang, J.R. Marciante, J.D. Zuegel, R. Sobolewski, and H. Wu, \u201cIntegrated Silicon PIN Photodiodes Using Deep Nwell in a Standard 0.18-um CMOS Technology,\u201d\u00a0<i>IEEE Journal of Lightwave Technology<\/i>, 27(15):3303-3313, August 2009.<\/li>\n<li>J. Xue, A. Garg, B. Ciftcioglu, S. Wang, J. Hu, I. Savidis, M. Jain, M. Huang, H. Wu, E. Friedman, G. Wicks, and D. Moore, \u201cAn Intra-Chip Free-Space Optical Interconnect\u201d, 3rd Workshop on Chip Multiprocessor Memory Systems and Interconnects (CMP-MSI) held in conjunction with the 36th International Symposium on Computer Architecture, June 2009.<\/li>\n<li>J. Hu, Y. Zhu, S. Wang, and H. Wu, \u201cA 0.17-nJ\/Pulse IR-UWB Recevier Based on Distributed Pulse Correlator in 0.18-um Digital CMOS,\u201d\u00a0<i>IEEE Radio Frequency Integrated Circuit (RFIC) Symposium<\/i>, 543-546, June 2009.<\/li>\n<li>Y. Zhu, J. Zuegel, J. Marciante, and H. Wu, \u201cDistributed Waveform Generator: A New Circuit Technique for Ultra-Wideband Pulse Generation, Shaping and Modulation,\u201d\u00a0<i>IEEE Journal of Solid-State Circuits<\/i>, 44(3):808-823, March 2009.<\/li>\n<li>Y. Zhu, J. Hu, and H. Wu, \u201cA 2.5 Gpulse\/s, 25 pJ\/pulse, 0.18-um CMOS Impulse Radio UWB Transmitter Based on Dual-Polarity Distributed Waveform Generator,\u201d\u00a0<i>9th Topical Meeting on Silicon Monolithic Integrated Circuits in RF Systems<\/i>, pp.225-228, Jan. 2009.<\/li>\n<li>B. Ciftcioglu, L. Zhang, J. Zhang, J.R. Marciante, J.D. Zuegel, R. Sobolewski, and H. Wu, \u201c3-GHz Silicon Photodiodes Integrated in a Standard 0.18-um CMOS Technology,\u201d\u00a0<i>IEEE Photonic Technology Letters<\/i>, vol. 20, no. 24, pp. 2069-2071, Dec. 2008.<\/li>\n<li>L. Zhang, A. Carpenter, B. Ciftcioglu, A. Garg, M. Huang, and H. Wu, \u201cInjection-Locked Clocking: A Low-Power Clock Distribution Scheme for High-Performance Microprocessors,\u201d\u00a0<i>IEEE Transaction on Very Large Scale Integrated Circuit (TVLSI)<\/i>, vol. 16, no. 9, pp. 1251-1256, Sep. 2008.<\/li>\n<li>L. Zhang, B. Cifctioglu, and Hui Wu, \u201cActive Deskew in Injection-Locked Clocking,\u201d\u00a0<i>2008 IEEE Custom Integrated Circuits Conference (CICC)<\/i>, Sep. 2008.<\/li>\n<li>L. Zhang, D. Karasiewicz, B. Cifctioglu, and Hui Wu, \u201cA 1.6-to-3.2\/4.8 GHz Dual-Modulus Injection-Locked Frequency Multiplier in 0.18um Digital CMOS,\u201d\u00a0<i>2008 IEEE Radio-Frequency Integrated Circuits (RFIC) Symposium<\/i>, pp.427-430, June 2008.<\/li>\n<li>L. Zhang, A. Carpenter, B. Ciftcioglu, A. Garg, M. Huang, and H. Wu, \u201cInjection-Locked Clocking: A Low-Power Clock Distribution Scheme for High-Performance Microprocessors,\u201d extended technical report.<\/li>\n<li>Y. Zhu, J. Zuegel, J. Marciante, and H. Wu, \u201cA 10.9 GS\/s, 64 Taps Distributed Waveform Generator with DAC-Assisted Current-Steering Pulse Generators in 0.18um Digital CMOS,\u201d\u00a0<i>8th Topical Meeting on Silicon Monolithic Integrated Circuits in RF Systems<\/i>, pp.13-16, Jan. 2008.<\/li>\n<li>J. Hu, Y. Zhu, and H. Wu, \u201cAn Ultra-Wideband Resistive-Feedback Low-Noise Amplifier with Noise Cancelation in 0.18um Digital CMOS,\u201d\u00a0<i>8th Topical Meeting on Silicon Monolithic Integrated Circuits in RF Systems<\/i>, pp.218-221, Jan. 2008.<\/li>\n<li>J. Hu and H. Wu, \u201cA Study of Transceiver Architecture of Ultra-Wideband Impulse Radios,\u201d\u00a0<i>IEEE Upstate New York Workshop on Communications, Sensors and Networking<\/i>, November 2007.<\/li>\n<li>L. Zhang, B. Ciftcioglu and H. Wu, \u201cA 1V, 1mW, 4GHz Injection-Locked Oscillator for High Performance Clocking\u201d,\u00a0<i>2007 IEEE Custom Integrated Circuits Conference (CICC)<\/i>, pp.309-312, October 2007.<\/li>\n<li>Y. Zhu, J. Zuegel, J. Marciante, and H. Wu, \u201cA 10GS\/s Distributed Waveform Generator for Sub-Nanosecond Pulse Generation and Modulation in 0.18um Standard Digital CMOS\u201d,\u00a0<i>IEEE Radio-Frequency Integrated Circuits (RFIC) Symposium Digest of Papers<\/i>, pp.35-38, June 2007.<\/li>\n<li>Y. Zhu, S. Wang, and H. Wu, \u201cMultilayer Coplanar Waveguide Transmission Lines Compatible with Standard Digital Silicon Technologies\u201d,\u00a0<i>Int\u2019l Microwave Symposium (IMS)<\/i>, TH2G-05, June 2007.<\/li>\n<li>Y. Zhu, J. Zuegel, J. Marciante, and H. Wu, \u201cA 0.18um CMOS Distributed Transversal Filter with Binary-Weighted Gain Cell Design,\u201d\u00a0<i>7th Topical Meeting on Silicon Monolithic Integrated Circuits in RF Systems<\/i>, pp.563-566, Jan. 2007.<\/li>\n<li>Y. Zhu and H. Wu, \u201cUltrafast Pulse Processing using Distributed Transversal Filters for Impulse Radio UWB\u201d,\u00a0<i>IEEE Upstate New York Workshop on Communications and Networking<\/i>, Nov. 2006.<\/li>\n<li>H. Wu, L. Zhang, A. Carpenter, A. Garg, and M. Huang, \u201cInjection-Locked Clocking: A Low-Power Clock Distribution Scheme for High-End Microprocessors,\u201d\u00a0<i>3rd Watson Conference on Interaction between Architecture, Circuits, and Compilers<\/i>, October 2006.<\/li>\n<li>Y. Zhu, J. Zuegel, J. Marciante, and H. Wu, \u201cIntegrated Distributed Transversal Filters for Pulse Shaping and Interference Suppression in UWB Impulse Radios\u201d,\u00a0<i>IEEE Int\u2019l Conference on Ultra-Wideband<\/i>, Sep. 2006.<\/li>\n<li>L. Zhang, B. Ciftcioglu, M. Huang and H. Wu, \u201cInjection-Locked Clocking: A New GHz Clock Distribution Scheme\u201d,\u00a0<i>IEEE Custom Integrated Circuits Conference (CICC)<\/i>, pp. 785-788, Sep. 2006.<\/li>\n<li>Y. Zhu and H. Wu, \u201cA 10-40GHz 7dB Directional Coupler in Digital CMOS Technology\u201d,\u00a0<i>Int\u2019l Microwave Symposium (IMS) Digest<\/i>, pp.1551-1554, June 2006.<\/li>\n<li>Y. Zhu and H. Wu, \u201cDistributed Amplifiers with Non-Uniform Filtering Structures\u201d,\u00a0<i>IEEE Radio-Frequency Integrated Circuits (RFIC) Symposium Digest of Papers<\/i>, pp.367-370, June 2006.<\/li>\n<li>L. Zhang and H. Wu, \u201cA Double-Balanced Injection-Locked Frequency Divider for Tunable Dual-Phase Signal Generation\u201d,\u00a0<i>IEEE Radio-Frequency Integrated Circuits (RFIC) Symposium Digest of Papers<\/i>, pp.137-140, June 2006.<\/li>\n<li>Y. Zhu, J. Zuegel, J. Marciante, and H. Wu, \u201cA Reconfigurable, Multi-Gigahertz Pulse Shaping Circuit Based on Distributed Transversal Filters\u201d,\u00a0<i>IEEE Int\u2019l Circuit and System Symposium (ISCAS) Digest<\/i>, pp.4232-4235, May 2006.<\/li>\n<li>H. Wu and L. Zhang, \u201cA 16-18GHz 0.18 um Epi-CMOS Divide-by-3 Injection-Locked Frequency Divider\u201d,\u00a0<i>IEEE Int\u2019l Solid-State Circuit Conf. (ISSCC) Digest Tech. Papers<\/i>, vol.49, pp.602-603, Feb. 2006.<\/li>\n<li>Y. Zhu, J. Zuegel, J. Marciante, and H. Wu, \u201cA 0.18 m CMOS Distributed Transversal Filter for Sub-Nanosecond Pulse Synthesis\u201d,\u00a0<i>Proc. IEEE Radio and Wirelss Symposium<\/i>, pp.563-566, Jan. 2006.<\/li>\n<\/ul>\n<h3>Selected Publications (Caltech)<\/h3>\n<ul>\n<li>H. Wu, J. Tierno, P. Pepeljugoski, J. Schaub, S. Gowda, J. Kash, and A. Hajimiri, \u201cIntegrated Transversal Equalizers in High-Speed Fiber-Optic Systems\u201d,\u00a0<i>IEEE J. Solid-State Circuits<\/i>, vol. 38, no. 12, pp. 2131-2137, Dec. 2003.<\/li>\n<li>H. Wu, J. Tierno, P. Pepeljugoski, J. Schaub, S. Gowda, J. Kash, and A. Hajimiri,et al, \u201cDifferential 4-tap and 7-tap Transversal Filters in SiGe for 10Gb\/s Multimode Fiber Optic Link Equalization\u201d,\u00a0<i>IEEE Int\u2019l. Solid-State Circuit Conf. (ISSCC) Digest Tech. Papers<\/i>, vol.46, pp.180-181, Feb. 2003.<\/li>\n<li>H. Wu and A. Hajimiri, \u201cSilicon-Based Distributed Voltage Controlled Oscillators\u201d,\u00a0<i>IEEE J. Solid-State Circuits<\/i>, vol.36, no.3, pp.493-502, Mar. 2001.<\/li>\n<li>H. Wu and A. Hajimiri, \u201cA 19GHz, 0.5mW, 0.35um CMOS Frequency Divider with Shunt-Peaking Locking-Range Enhancement\u201d,\u00a0<i>IEEE IEEE Int\u2019l. Solid-State Circuit Conf. (ISSCC) Digest Tech. Papers<\/i>, vol.44, pp.412-413, Feb. 2001.<\/li>\n<\/ul>\n","protected":false},"excerpt":{"rendered":"<p>Selected Publications (LAICS) W. Wang, L. Lu, L. King, Y. Liu, M. Gong, S. Li, and H. Wu, &#8220;Cascaded subarray design and control method for power efficient, thermal crosstalk optimized&hellip;<\/p>\n","protected":false},"author":36,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"page-templates\/one-column.php","meta":{"footnotes":""},"class_list":["post-5086","page","type-page","status-publish","hentry"],"acf":[],"yoast_head":"<!-- This site is optimized with the Yoast SEO plugin v27.7 - https:\/\/yoast.com\/product\/yoast-seo-wordpress\/ -->\n<title>Publications - Laboratory for Advanced Integrated Circuits and Systems<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/www.hajim.rochester.edu\/ece\/sites\/laics\/all-publications\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Publications - Laboratory for Advanced Integrated Circuits and Systems\" \/>\n<meta property=\"og:description\" content=\"Selected Publications (LAICS) W. Wang, L. Lu, L. King, Y. Liu, M. Gong, S. Li, and H. 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