The field of confidential computing is moving towards scalable and secure solutions for cloud-based applications. Researchers are focusing on developing innovative architectures and frameworks that can provide composable isolation, attestable security, and minimal overhead. One of the key directions is the integration of Trusted Execution Environments (TEEs) into cloud platforms, enabling secure and private data processing. Additionally, there is a growing interest in developing modular security frameworks that can adapt to various threats and attack vectors. Notable papers in this area include: Qualcomm Trusted Application Emulation for Fuzzing Testing, which introduces a novel emulator for trusted applications. Security Enclave Architecture for Heterogeneous Security Primitives for Supply-Chain Attacks, which presents a modular security framework for system-on-chip platforms. Rethinking the confidential cloud through a unified low-level abstraction for composable isolation, which proposes a unified isolation model for composable isolation.