Abstract: Specifying and Verifying Hysteresis Signature System with HOL-Z David Basin and Hironobu Kuruma and Kazuo Takaragi and Burkhart Wolff We report on a case-study in using the data-oriented modeling language Z to formalize a security architecture for administering digital signatures and its architectural security requirements. Within an embedding of Z in the higher-order logic Isabelle/HOL, we provide formal machine-checked proofs of the correctness of the architecture with respect to its requirements. A formalization and verification of the same architecture has been previously carried out using the process-oriented modeling language PROMELA and the SPIN model checker. We use this as a basis for comparing these two different approaches to formalization (infinite state with rich data types versus finite state) and verification (theorem proving versus model checking).