Action Units are introduced as typed, composable components in knowledge graphs that encode epistemic, transformational, and intervention operations with explicit applicability conditions, enabling post-FAIR infrastructures via the TripleA principle.
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Three scheduling strategies for hybrid quantum-HPC systems cut classical resource use by up to 64% or boost QPU utilization depending on workload balance, validated on real hardware.
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Actionable Understanding: Action Units for Bridging the Knowledge-Action Gap in Post-FAIR Knowledge Infrastructures
Action Units are introduced as typed, composable components in knowledge graphs that encode epistemic, transformational, and intervention operations with explicit applicability conditions, enabling post-FAIR infrastructures via the TripleA principle.
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Three ways to share a QPU: Scheduling strategies for hybrid Quantum-HPC applications
Three scheduling strategies for hybrid quantum-HPC systems cut classical resource use by up to 64% or boost QPU utilization depending on workload balance, validated on real hardware.