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The integration of artificial intelligence (AI) into hospital decision ecosystems represents a transformative shift towards autonomous clinical workflows, enabling enhanced decision-making, resource optimization, and patient outcomes. This conceptual manuscript proposes a novel architecture, the Hospital Autonomous Workflow Intelligence System (HAWIS), designed to orchestrate AI-driven intelligence across clinical pipelines, electronic health records (EHRs), and governance frameworks. HAWIS incorporates layered components for data interoperability, real-time analytics, and adaptive monitoring, ensuring seamless integration within hospital environments. Drawing on recent advancements in clinical AI architectures, healthcare analytics infrastructures, and decision support systems, the architecture addresses key challenges, including interoperability barriers, governance complexities, and workflow disruptions. Theoretical formulas are introduced to model decision confidence propagation and governance load dynamics, providing interpretive tools for assessing system resilience. The framework emphasizes autonomous orchestration, where AI agents facilitate proactive interventions in hospital decision ecosystems, mitigating risks associated with data silos and regulatory compliance. By synthesizing the literature, this work highlights the need for a scalable, secure infrastructure to support AI deployment in healthcare. Ultimately, HAWIS offers a blueprint for future hospital systems, fostering intelligence-driven ecosystems that enhance clinical efficiency without empirical validation or performance metrics. This conceptual approach underscores AI’s potential to redefine hospital workflows, promoting equitable and safe decision-making.