Quantum computing is revolutionizing the way we approach data processing. Unlike classical computers, which process information in binary format (0s and 1s), quantum computers utilize qubits that can represent and store information in multiple states simultaneously. This ability to exist in a state of superposition allows for exponentially faster computations, particularly in complex problem-solving scenarios. As we decode the principles behind quantum systems, it becomes clear that this technology will redefine industries, from cryptography to material science.

One of the most fascinating aspects of quantum computing is the role of shivers, or quantum states, in transforming how data is processed. Shivers facilitate processes such as quantum entanglement, where particles become interconnected, allowing for instantaneous data transfer across distances. This means that regarding data processing, quantum computers can perform multiple calculations at once, drastically decreasing the time taken to analyze vast datasets. As we continue to explore the implications of these advancements, a new era of data processing is on the horizon, paving the way for innovations we have yet to fully imagine.

The convergence of quantum mechanics and computing has sparked a significant discussion about whether we are ready for machines that can not only process information but also 'think' in ways analogous to human cognition. Traditional computers rely on a binary system of ones and zeros, whereas quantum computers utilize the principles of superposition and entanglement, allowing them to handle vast amounts of data simultaneously. This revolutionary capability promises to transcend current computational limits, raising fascinating implications for fields such as artificial intelligence, machine learning, and complex problem-solving.

However, with great power comes great responsibility. As we stand on the brink of a quantum computing era, questions regarding ethics, security, and the potential risks of computers that 'think' are paramount. It is crucial to consider the implications of machines capable of processing information and making decisions independently. Are our current frameworks for technology governance adequate to address the challenges posed by such advanced systems? Engaging in comprehensive discourse on these topics will be vital as we navigate this uncharted territory, ensuring that we harness the potential of quantum thinking responsibly.

The concept of 'Thinking in Shivers' encapsulates the evolving nature of computing as we move towards a more intuitive interface between humans and machines. As technology advances, the way we interact with devices is shifting from traditional inputs, such as keyboards and touchscreens, to more sensory and emotional connections. This paradigm shift points toward an era where our devices can understand and respond to our emotional states, enhancing user experience and personalizing interactions in ways previously thought unimaginable.

In practical terms, 'Thinking in Shivers' could translate to computing environments that utilize biometric sensors and AI algorithms to gauge user emotions. For instance, imagine a computer that senses your stress levels and adjusts its performance to provide a calming interface or suggest breaks when needed. As we delve deeper into this territory, the implications for productivity, mental health, and technology integration in daily life will be profound, prompting both ethical considerations and innovative solutions in the tech industry.