Abstract
The SyncFusion Amplifier is introduced as an innovative electronic
component designed to redefine security in IoT devices. Principles
inspired by quantum entanglement are leveraged to establish synchronized
correlations between input signals, resulting in amplified and coherent
outputs. The behavior, validation, and potential applications of the
amplifier are demonstrated using QSPICE simulation and a hierarchical
entry block with C++ code. Through detailed analysis, the enhancement of
correlated behaviors by the SyncFusion Amplifier is showcased, with
applications in cryptography and communication. By generating more
robust cryptographic keys and secure communication channels, security
vulnerabilities in IoT environments are addressed. The research not only
unveils a groundbreaking electronic component but also proposes a
paradigm shift in IoT security. As the IoT landscape continues to
expand, a timely solution is presented by the SyncFusion Amplifier to
fortify data protection, communication integrity, and overall device
security.