Outsourcing the ICs for manufacturing introduces potential security threats such as hardware Trojans. Trojan inputs usually come from nets with rare activity. Therefore, increasing the probability of rare event activities in the circuit can increase the detection probability. We propose a method to increase the Trojan detection probability using fault injection. The proposed method has no hardware overhead, and has the potential for detection of several types of Trojans that are triggered by rare events. It increases the probability of Trojan activation by up to three times, and achieves Trojan detection rate above 95% with false alarm rate below 3%.
Farajipour Ghohroud,N. and Hessabi,S. (2017). Improving Effectiveness of Hardware Trojan Detection using Fault Injection. (e215894). The CSI Journal on Computer Science and Engineering, 14(2), e215894
MLA
Farajipour Ghohroud,N. , and Hessabi,S. . "Improving Effectiveness of Hardware Trojan Detection using Fault Injection" .e215894 , The CSI Journal on Computer Science and Engineering, 14, 2, 2017, e215894.
HARVARD
Farajipour Ghohroud N., Hessabi S. (2017). 'Improving Effectiveness of Hardware Trojan Detection using Fault Injection', The CSI Journal on Computer Science and Engineering, 14(2), e215894.
CHICAGO
N. Farajipour Ghohroud and S. Hessabi, "Improving Effectiveness of Hardware Trojan Detection using Fault Injection," The CSI Journal on Computer Science and Engineering, 14 2 (2017): e215894,
VANCOUVER
Farajipour Ghohroud N., Hessabi S. Improving Effectiveness of Hardware Trojan Detection using Fault Injection. CSIonJCSE, 2017; 14(2): e215894.
The CSI Journal on Computer Science and Engineering