Abstract
Large language models (LLMs) have transformed AI, yet reliably controlling their outputs remains a challenge. This paper explores activation engineering, where outputs of pre-trained LLMs are controlled by manipulating their activations at inference time. Unlike traditional methods using a single steering vector, we introduce conceptors–mathematical constructs that represent sets of activation vectors as ellipsoidal regions. Conceptors act as soft projection matrices and offer more precise control over complex activation patterns. Our experiments demonstrate that conceptors outperform traditional methods across multiple in- context learning steering tasks. We further use a Boolean algebra over conceptors that allows for combined steering goals using Boolean logic, that empirically outperforms combining steering vectors on a set of tasks. These results highlight conceptors as a promising tool for more effective steering of LLMs.