We are currently witnessing the biggest collision in the history of software. You’ve likely heard the terms “deterministic” and “probabilistic” in discussions about AI, but what does that really mean?...
One way to understand non-deterministic AI is by first distinguishing between deterministic and non-deterministic algorithms. In a deterministic algorithm, for a given particular input, the computer w...
We propose the notion of a deterministic biautomaton, a machine reading an input word from both ends. We focus on various subclasses of deterministic linear languages and give their characterizations ...
Abstract page for arXiv paper quant-ph/0701007: Deterministic generation of large cluster states using non-deterministic collective measurements based on quantum Zeno effect
To accurately measure and attribute interactions (installs and in-app events) that users take with your app, Branch uses several different types of attribution. The attribution method Branch applies d...
The deterministic membership problem for timed automata asks whether the timed language given by a nondeterministic timed automaton can be recognised by a deterministic timed automaton. An analogous p...
To accurately measure and attribute interactions (installs and in-app events) that users take with your app, Branch uses several different types of attribution. The attribution method Branch applies d...
Measurement-based quantum computing offers a promising route towards scalable, universal photonic quantum computation. This approach relies on the deterministic and efficient generation of photonic gr...
Phenotypic heterogeneity in bacteria can result from stochastic processes or deterministic programs. The deterministic programs often involve the versatile second messenger c-di-GMP, and give rise to ...
Branch determines which marketing touchpoint motivated a user to install or open an app, then attributes that action back to the source using multiple attribution methods prioritized by accuracy. Attr...
An automaton is used where information and materials are transformed, transmitted, and utilized for performing some processes without direct involvement of human. A finite automaton (both deterministi...
Incorporating topological physics into the realm of quantum photonics holds the promise of developing quantum light emitters with inherent topological robustness and immunity to backscattering. Noneth...
AI Governance Framework: The Deterministic Envelope™ for Autonomous and Agentic Systems, AI Governance, AI accountability, Deterministic Envelope, Autonomous AI
We strengthen the foundations of deterministic public-key encryption via definitional equivalences and standard-model constructs based on general assumptions. Specifically we consider seven notions of...
Incorporating topological physics into the realm of quantum photonics holds the promise of developing quantum light emitters with inherent topological robustness and immunity to backscattering. Noneth...
AI Governance Framework: The Deterministic Envelope™ for Autonomous and Agentic Systems, AI Governance, AI accountability, Deterministic Envelope, Autonomous AI
Deterministic photon sources allow long-term advancements in quantum optics. A single quantum emitter embedded in a photonic resonator or waveguide may be triggered to emit one photon at a time into a...
Deterministic public-key encryption, introduced by Bellare, Boldyreva, and O’Neill (CRYPTO ’07), provides an alternative to randomized public-key encryption in various scenarios where the latter exhib...
