Software pro analýzu dálkového odečtu měřicích zařízení / Software for the analysis of the remote-reading of the meters

Přívětivý, Radek

January 2015

There are describes the principles of remote meter reading in the home and components of smart grids for reading these meters in the first part of master’s thesis. The next part of the thesis contains description of standard Wireless M-Bus and ZigBee. The next chapter is description of the circuit Realtek RTL2832U, which is part of the selected tuner. Another part is devoted to basic description of modulation focusing on the angle modulation – FM, FSK. In the final part is a detailed description of the received signal. AES encryption and created software.

Energy efficiency in AES encryption on ARM Cortex CPUs : Comparative analysis across modes of operation, data sizes, and key lengths

Dupré, Gene

January 2024

This thesis examines the energy efficiency of Advanced Encryption Standard (AES) encryption across various modes of operation (ECB, CBC, CFB, OFB, CTR, GCM, and CCM) on ARM Cortex-A53, Cortex-A72, and Cortex-A76 processors, using Raspberry Pi models 3, 4, and 5 as the experimental platforms. The study primarily investigates the impact of key lengths (128, 192, and 256 bits) and data sizes on energy consumption during encryption tasks. Using an experimental setup with the Raspberry Pi single-board computers, energy consumption was measured and analyzed through repeated encryption operations and data collection via a power meter interfaced with a database. The results reveal only modest increases in energy consumption with larger key lengths across all tested modes and data sizes, suggesting that while key length incrementally affects energy usage, the impact remains relatively minor, thus not significantly compromising energy efficiency for enhanced security. The analysis further shows that ECB mode consistently exhibits the lowest energy consumption, with CTR and CBC not far behind, followed by OFB and then CFB being the least effective among the traditional modes, with AEAD modes like GCM and CCM demanding substantially higher energy, reflecting their more complex processing requirements. Additionally, the study highlights the influence of data size on energy efficiency, showing a decrease in energy consumption per kilobyte with increasing file size up to a certain point, beyond which the benefits diminish. This thesis contributes to a deeper understanding of the trade-offs between security features and energy efficiency in AES encryption on ARM processors, offering insights into scenarios where energy consumption is a critical concern. The findings underscore the importance of selecting appropriate encryption modes and configurations based on the specific requirements and constraints of hardware environments aimed at optimizing energy efficiency in cryptographic operations. Future research could expand on a broader array of ARM-based devices to improve the biases from the Raspberry Pi boards and enhance the reliability of the conclusions drawn from the data.

AES encryption

ARM Cortex processors

encryption modes

data size impact

key length

energy efficiency

embedded systems

cryptographic analysis

ECB

CBC

CTR

OFB

CFB

GCM

CCM

encryption efficiency

cybersecurity

power-efficient cryptography

energy profiles

Information Systems, Social aspects