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                            张永强
                                 日期:2020-06-17

                            张永强


                            姓名

                            张永强

                            职称

                            讲师

                            职务

                            所属系所

                            电子科学与技术

                            邮箱

                            ahzhangyq@hfut.edu.cn

                            电话

                            15209863525


                            个人简介

                            研究方向

                            数字电路设计、纳米电路设计


                            开设课程(本科生、研究生)

                            本科课程《量子力学》


                            科研项目

                            1. 基于量子元胞自动机的低功耗随机电路研究(JZ2020HGTA0085),中央高?;究蒲幸滴穹炎ㄏ钭式鹱手?,2020-2021,主持;

                            2. 基于量子元胞自动机的低功耗电路设计(JZ2020HGQA0162),青年教师科研创新启动专项,2020-2022,主持;

                            3. 植入式神经功能电刺激接口电路关键技术研究(61674049),国家自然科学基金,2017-2020,参与;

                            4. 应用于车载中控显示的TTL/LVDS to MIPI高清信号转换和驱动芯片(16030901007),安徽省科技重大专项,2016-2017,参与;

                            5. 量子元胞自动机电路的可靠性研究(61271122),国家自然科学基金,2013-2016,参与;

                            6. 量子电路综合智能算法研究(1208085MF102),安徽省自然科学基金,2012-2013,参与。


                            代表成果(著作、论文、专利等,限10项)

                            著作

                            解光军,张永强,吕洪君。量子元胞自动机电路设计与分析,科学出版社,2020。

                            论文

                            1. Song Zhixin, Xie Guangjun, Cheng Xin, Wang Lei, Zhang Yongqiang*. An ultra-low cost multilayer RAM in quantum-dot cellular automata [J]. IEEE Transactions on Circuits and Systems II: Express Briefs, 2020, Early access. (SCI)

                            2. Zhang Yongqiang, Deng Feifei, Cheng Xin, Xie Guangjun*. A coplanar XOR using NAND-NOR-inverter and five-input majority voter in quantum-dot cellular automata technology [J]. International Journal of Theoretical Physics, 2020, 59(2): 484-501. (SCI)

                            3. Zhang Yongqiang, Xie Guangjun*, Han Jie. A robust wire crossing design for thermostability and fault tolerance in quantum–dot cellular automata [J]. Microprocessors and Microsystems, 2020, 74: 103033. (SCI)

                            4. Deng Feifei, Xie Guangjun, Zhu Renjun, Zhang Yongqiang*. A matrix representation method for decoders using majority gate characteristics in quantum-dot cellular automata [J]. Journal of Supercomputing, 2020, 76(4): 2842-2859. (SCI)

                            5. Deng Feifei, Xie Guangjun, Wang Shaowei, Cheng Xin, Zhang Yongqiang*. An ultra-low power five-input majority gate in quantum-dot cellular automata [J]. Journal of Circuits, Systems, and Computers, 2020, 29(11): 1-19. (SCI)

                            6. Deng Feifei, Xie Guangjun, Cheng Xin, Zhang Zhang, Zhang Yongqiang*. CFE: A convenient, flexible, and efficient clocking scheme for quantum-dot cellular automata [J]. IET Circuits, Devices & Systems, 2020, 14(1): 88-92. (SCI)

                            7. Cheng Xin, Shao Wanjing, Xu Lixin, Zhang Yongqiang, Xie Guangjun, et al. A high resolution DPWM based on synchronous phase-shifted circuit and delay line [J]. IEEE Transactions on Circuits and Systems I: Regular Papers, 2020, Early access. (SCI)

                            8. Cheng Xin, Shao Wangjing, Zhang Yongqiang, Zeng Jianmin, Zhang Zhang. High frequency and high efficiency dc-dc converter with sensorless adaptive-sizing technique [J]. IEICE Electronics Express, 2020, 17(3): 1-4. (SCI)

                            9. Zhang Yongqiang, Xie Guangjun*, Han Jie. Serial concatenated convolutional code encoder in quantum-dot cellular automata [J]. Nano Communication Networks, 2019, 22: 100268. (SCI)



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