The field of digital forensics and sustainable computing is rapidly evolving, with a focus on developing innovative techniques and tools to enhance the security and energy efficiency of computing systems. Recent research has led to the development of comprehensive frameworks for timeline-based event reconstruction, which aim to provide a unified perspective on the reconstruction process. Additionally, there is a growing emphasis on sustainable computing, with the creation of cost-effective and accurate power measurement tools that enable real-time power measurements of various system components. Furthermore, researchers are exploring new approaches to access control, such as using asset and goal models to identify knowledge asymmetries and make access control transparent. Noteworthy papers in this area include: PowerSensor3, which provides a fast and accurate open-source power measurement tool, and SoK: Timeline based event reconstruction for digital forensics, which proposes a comprehensive framework for timeline-based event reconstruction. Other notable papers, such as ChipletQuake and Sleeping Giants, demonstrate the ability to detect tamper events in chiplet-based systems and activate dormant Java deserialization gadget chains, respectively.