Data (bits) from unique identification of objects or things (atoms) are often helpful to the decision making process. Decisions, however, are often based on information that takes into account multiple factors. Physical objects and their unique identification may be one of many factors, as is the internet of things, from the perspective of a systems approach. Real-world decisions are often based on collective information gathered from multiple sources (or systems) that includes data (bits) about “things” (atoms) and processes associated with “things” which may be used in combination with a higher level domain that may eventually trigger a decision or execute an action, aided or unaided by a human. Currently, we do not have a globally unique mechanism to identify information derived from data originating from things (objects) and processes. Unique identification of information, hence, is an open question. However, information, to be of value, must be relative to the context of the process. In general, contextual information is of greater relevance in the decision making process or in decision systems (decisionable information). A globally acceptable system for unique identification of decisions may offer obvious benefits. This paper explores one such route by using the vast number of unique addressing capability of IPv6.