In multiprocessor system-on-chip (MPSoC), a CPU can access physical resources, such as on-chip memory or I/O devices. Along with normal requests, malevolent ones, generated by malicious processes running in one or more CPUs, could occur. A protection mechanism is therefore required to prevent injection of malicious instructions or data across the system. We propose a self-contained Network-on-Chip (NoC) firewall at the network interface (NI) layer which, by checking the physical address against a set of rules, rejects untrusted CPU requests to the onchip memory, thus protecting all legitimate processes running in a multicore SoC. To sustain high performance, we implement the firewall in hardware, with rule-checking performed at segmentlevel based on deny rules. Furthermore, to evaluate its impact, we develop a novel framework on top of gem5 simulation environ-
ment, coupling ARM technology and an instance of a commercial point-to-point interconnect from STMicroelectronics (STNoC). Simulation tests include scenarios in which legitimate and malicious processes, running in different CPUs, request access to shared memory. Our results indicate that a firewall implementation at the NI can have a positive effect on network performance by reducing both end-to-end network delay and power consumption.We also show that our coarse-grain firewall can prevent saturation of the on-chip network and performs better than fine-grain alternatives that perform rule checking at page-level. Simulation results are accompanied with field measurements performed on a Zedboard platform running Linux, whereas the NoC Firewall is implemented as a reconfigurable, memory-mapped device on top of AMBA AXI4 interconnect fabric.
We present an application of the reduction of couplings program in the minimal supersymmetric Standard Model (MSSM). We investigate if a functional relation between α 1 and α 2 gauge couplings can be realized which is Renormalization Group Invariant (RGI). Following the same procedure for the top and bottom Yukawa couplings we end up with a prediction of a narrow window for tanβ , which is one of the basic parameters that determine the light Higgs mass.
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