Hardware Trojan Designs Based on High-Low Probability and Partitioned Combinational Logic With a Malicious Reset Signal

Shi Jiangyi; Zhang Xinyuan; Ma Peijun; Pan Weitao; Li Pengfei; Tang Zhengguang

首页> 外文期刊>Circuits and Systems II: Express Briefs, IEEE Transactions on >Hardware Trojan Designs Based on High-Low Probability and Partitioned Combinational Logic With a Malicious Reset Signal

【24h】

Hardware Trojan Designs Based on High-Low Probability and Partitioned Combinational Logic With a Malicious Reset Signal

机译：硬件特洛伊木马设计基于高低概率和分区组合逻辑，具有恶意重置信号

获取原文

获取原文并翻译 | 示例

获取外文期刊封面封底 >>

开具论文收录证明 >>

文献代查 >>

团队文献服务 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

To counteract logic-testing methods and trust verification methods for hardware Trojan (HT) detection, two HT design strategies based on high-low probability and partitioned combinational logic with a malicious reset signal are proposed. Using these two strategies, a power consumption HT and a forced reset HT are designed in a self-developed RISC-V processor. The processor is implemented using SMIC 55nm CMOS technology. Experiments show that, compared to the HTs designed with low-probability nets, the HTs designed with high-low probability strategy can reduce the triggering probability by 87.5%. The HT designed by partitioning combinational logic strategy can increase the false positive rate of HT to 40%. The result can defeat FANCI effectively. In order to enhance the stealth of the HTs, we partitioned combinational logic by using flip-flops with a malicious reset signal. The reset signal participates as a part of the trigger condition, which significantly reduces the trigger probability of HTs.

机译：为了抵消硬件特洛伊木马（HT）检测的逻辑测试方法和信任验证方法，提出了两个基于高低概率和具有恶意复位信号的组合逻辑的HT设计策略。使用这两种策略，在自开发的RISC-V处理器中设计了功耗HT和强制重置HT。处理器使用SMIC 55nm CMOS技术实现。实验表明，与具有低概率网的HTS相比，以高低概率策略设计的HTS可以将触发概率降低87.5％。通过分区组合逻辑策略设计的HT可以将HT的假阳性率提高到40％。结果可以有效地击败FANCI。为了增强HTS的隐形，我们通过使用具有恶意复位信号的触发器来分区组合逻辑。复位信号作为触发条件的一部分参与，这显着降低了HT的触发概率。

著录项

来源
《Circuits and Systems II: Express Briefs, IEEE Transactions on 》 |2021年第6期| 2152-2156| 共5页
作者
Shi Jiangyi; Zhang Xinyuan; Ma Peijun; Pan Weitao; Li Pengfei; Tang Zhengguang;
展开▼
作者单位

Xidian Univ Sch Microelect Xian 710071 Peoples R China;

Xidian Univ Sch Microelect Xian 710071 Peoples R China;

Xidian Univ Sch Microelect Xian 710071 Peoples R China;

Xidian Univ Sch Telecommun Engn Xian 710071 Peoples R China;

Xidian Univ Sch Microelect Xian 710071 Peoples R China;

Xidian Univ Sch Microelect Xian 710071 Peoples R China;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类
关键词
Power demand; Circuits and systems; Logic gates; Detectors; Very large scale integration; Trojan horses; Trigger circuits; Logic-testing; trust verification; high-low probability; partitioned combinational logic; RISC-V processor;

机译：电源;电路和系统;逻辑门;探测器;非常大规模的集成;特洛伊木马;触发电路;逻辑测试;信任验证;高低概率;分区组合逻辑;RISC-V处理器;RISC-V处理器;RISC-V处理器;RISC-V处理器;

相似文献

外文文献
中文文献
专利

1. PODEM: A low-cost property-based design modification for detecting Hardware Trojans in resource-constraint IoT devices [J] . Shabani Ahmad, Alizadeh Bijan Journal of network and computer applications . 2020 ,第Octa期

机译：Podem：一种基于低成本的属性的设计修改，用于检测资源约束IOT设备中的硬件特洛伊木马
2. Holistic hardware Trojan design of trigger and payload at gate level with rare switching signals eliminated [J] . Kai Huang, Yun He, Xiaowen Jiang IEICE Electronics Express . 2019 ,第17期

机译：触发器和有效载荷的整体五金木头设计与罕见切换信号消除
3. Two Countermeasures Against Hardware Trojans Exploiting Non-Zero Aliasing Probability of BIST [J] . Dubrova Elena, Naslund Mats, Carlsson Gunnar, Journal of VLSI signal processing systems for signal, image, and video technology . 2017 ,第3期

机译：硬件木马利用BIST非零混淆概率的两种对策
4. Malicious combinational Hardware Trojan detection by Gate Level Characterization in 90nm technology [C] . Karunakaran D.K., Mohankumar N. International Conference on Computing Communication and Networking Technologies . 2014

机译：90nm技术中通过门级表征进行恶意组合硬件木马检测
5. Randomized Encoding of Combinational and Sequential Logic for Resistance to Hardware Trojans [D] . Schulze, Travis Edward. 2017

机译：抗硬件木马的组合逻辑和顺序逻辑的随机编码
6. Analog hardware trojan design and detection in OFDM based wireless cryptographic ICs [O] . Liakot Ali, Farshad 2021

机译：基于DM的无线加密ICS的模拟硬件特洛伊木马设计与检测
7. A Novel Hardware Logic Encryption Technique for thwarting Illegal Overproduction and Hardware Trojans [O] . Sophie Dupuis, Papa-sidi Ba, Giorgio Di Natale, 2015

机译：一种新的硬件逻辑加密技术，用于阻止非法生产过剩和硬件特洛伊木马
8. Design-for-Hardware-Trust Techniques, Detection Strategies and Metrics for Hardware Trojans. [R] . Tehranipoor, M. 2015

机译：针对硬件特洛伊木马的硬件设计信任技术，检测策略和度量标准。

Hardware Trojan Designs Based on High-Low Probability and Partitioned Combinational Logic With a Malicious Reset Signal

摘要

著录项

相似文献

相关主题

期刊订阅