Biblio

In recent times, Network-on-Chip (NoC) has become state of the art for communication in Multiprocessor System-on-Chip due to the existing scalability issues in this area. However, these systems are exposed to security threats such as extraction of secret information. Therefore, the need for secure communication arises in such environments. In this work, we present a communication protocol based on authenticated encryption with recovery mechanisms to establish secure end-to-end communication between the NoC nodes. In addition, a selected key agreement approach required for secure communication is implemented. The security functionality is located in the network adapter of each processing element. If data is tampered with or deleted during transmission, recovery mechanisms ensure that the corrupted data is retransmitted by the network adapter without the need of interference from the processing element. We simulated and implemented the complete system with SystemC TLM using the NoC simulation platform PANACA. Our results show that we can keep a high rate of correctly transmitted information even when attackers infiltrated the NoC system.

In recent years, Network-on-Chip (NoC) has gained increasing popularity as a promising solution for the challenging interconnection problem in multi-processor systems-on-chip (MPSoCs). However, the interest of adversaries to compromise such systems grew accordingly, mandating the integration of security measures into NoC designs. Within this paper, we introduce three novel lightweight approaches for securing communication in NoCs. The suggested solutions combine encryption, authentication, and network coding in order to ensure confidentiality, integrity, and robustness. With performance being critical in NoC environments, our solutions particularly emphasize low latencies and low chip area. Our approaches were evaluated through extensive software simulations. The results have shown that the performance degradation induced by the protection measures is clearly outweighed by the aforementioned benefits. Furthermore, the area overhead implied by the additional components is reasonably low.