Weize Yu

Professor

Supervisor of Doctorate Candidates Supervisor of Master's Candidates

齐鲁青年学者

E-Mail:   yuweize@sdu.edu.cn

Personal Profile

Personal Experience

  • 2020.08 -- Now

    山东大学  , 集成电路学院 , 教授 , 博士生导师

  • 2017.08 -- 2020.08

    美国欧道明大学  , 电子与计算机系 , 助理教授 , 博士生导师

  • 2014.08 -- 2017.08

    美国南佛罗里达大学  , 博士

  • 2009.09 -- 2012.07

    中国科学院微电子研究所  , 硕士

  • 2005.09 -- 2009.07

    电子科技大学  , 学士

Recruitment and Enrollment

Category Major Introduction Number of People Year

Doctoral admissions

计算机科学与技术、软件工程、通信工程、微电子、集成电路设计

在选择加入本课题组之前,我希望你能有挑战困难的决心,因为本课题的很多工作都是有一定难度的(有一些甚至是全世界都没人能做出来的工作)。如果你不是有强烈出人头地欲望的人,或者数学能力不强,就不建议加入本课题组。让我们一起努力,推动芯片的国产化发展!

2

2025

Master students recruit students

计算机科学与技术、软件工程、通信工程、微电子、集成电路设计

本课题组每年计划招收硕士研究生4-5名,博士研究生1-2名。欢迎来自外校和本校的本科生、硕士/博士研究生/博士后加盟本课题组!本课题组项目经费充足,和国内多家企业保持紧密合作关系,并建立了联合研究实验室,提供数字IC设计的流片机会。课题组设计的几款加解密算法芯片的速度、功耗、面积、延迟、安全性等指标在14nm工艺下达到全世界最高水平。课题组设计的每一款芯片都将在企业流片和量产,让学生获得宝贵的芯片设计经验。课题组特别欢迎具有数字IC设计经验、FPGA设计经验、计算机硬件背景的学生加入课题组。

5

2025

Research Direction

Name Introduction

高性能视频编码处理器芯片设计

H.264/H.265/AVC/HECV

58debceef8072b423624677fca9a8a0.jpg

可重构非对称引擎设计

图片211.bmp

高速可重构抗攻击加解密算法芯片研究

AES/3DES/SM4/SM3/SM2/ECC/RC2/RC4/MD5/RSA/SHA-1/SHA-224/SHA-256/SHA-384/SHA-512/Kyber/Dilithium/Spincs/Falcon



高压缩比高速数据/图片压缩算法芯片研究

LZ77/LZ78/LZW/LZ4/Huffman/FSE/Arithmetic Code/LZMA/ZSTD/GZIP/PPMD



高性能高速纠错/纠删算法芯片研究

RS FEC/RS Erasure Code/BCH/LDPC/Turbo

高性能真随机/伪随机芯片研究

PUF/TRNG/LFSR/PRNG


高性能CPU处理器研究

RISC-V CPU/DSP/NPU/PQC





Research Project

Project Name Project Cycle

高性能可重构抗量子格密码处理器芯片研发

2024/11/01

自主可控高性能服务器CPU的设计及产业化

2023/12/01,2026/12/31

高效深度学习训练计算框架研究

2021/01/31

TCM可信密码模组固件开发及应用开发

2021/08/31

加密电路的新型攻击研究以及解决方案

2023/01/01

安全芯片关键技术研发

2022/01/20

存储通道安全加密芯片研发及示范

2022/02/01

自主可控高性能服务器CPU的设计及产业化

2023/12/01

加解密算法在芯片中实现

2022/03/20

山东省自主可控服务器CPU发展战略研究

2024/01/01

非对称加解密算法在芯片中实现委托开发合同

2023/07/01

Main Papers

【1】刘国洋.Cosine convolutional neural network and its application for seizure detection. NEURAL NETWORKS, 174,2024.

【2】Optimization of combined power and modeling attacks on VR PUFs with Lagrange multipliersIEEE Transactions on Circuits and Systems II: Express Briefs,2020.

【3】Combining thermal maps with inception neural networks for hardware Trojan detectionIEEE Embedded Systems Letters,2021.

【4】An efficient methodology for hardware Trojan detection based on canonical correlation analysisMicroelectronics Journal,2021.

【5】Breaking LPA-resistant cryptographic circuits with principal component analysisIntegration,2021.

【6】Convex optimization of random dynamic voltage and frequency scaling against power attacksIntegration,2022.

【7】Neural network-based entropy: A new metric for evaluating side-channel attacksJournal of Circuits, Systems and Computers,2023.

【8】A novel hardware authentication primitive against modeling attacksInternational Journal of Circuit Theory and Applications,2023.

【9】A low output ripple and high security on‐chip voltage regulation based on Fourier transformInternational Journal of Circuit Theory and Applications,2023.

【10】A machine learning low‐dropout regulator‐assisted differential power analysis attack countermeasure with voltage scalingInternational Journal of Circuit Theory and Applications,2023.

【11】A sequential strong PUF architecture based on reconfigurable neural networks (RNNs) against state-of-the-art modeling attacksIntegration,2023.

【12】A novel on-chip linear and switching mixed regulation against power analysis attacksIntegration,2023.

【13】A high‐speed and low‐latency hardware implementation of RC4 cryptographic algorithmInternational Journal of Circuit Theory and Applications,2023.

【14】A novel SM4 cryptographic architecture against higher order power analysis attacksInternational Journal of Circuit Theory and Applications,2024.

【15】A low-overhead and high-reliability physical unclonable function (PUF) for cryptographyIntegration,2024.

【16】A 128-Gbps Pipelined SM4 Circuit With Dual DPA Attack CountermeasuresIEEE Transactions on Very Large Scale Integration (VLSI) Systems,2024.

【17】State-of-the-Art 3DES Pipelined Cryptographic Engine Design Against Side-Channel AttacksInternational Journal of Circuit Theory and Applications,2024.

Patent Works