Dave Driggers, CEO of Cirrascale, breaks down what “compute efficiency” really means, from GPU utilization and TCO modeling to token-based pricing that drives predictable customer value.
From data center to edge, Arm is enabling full-stack AI efficiency, powering ecosystems with performance-per-watt optimization, tailored silicon, and software portability across environments.
Real-Time Energy Routing (RER) treats electricity like data—modular, dynamic, and software-defined—offering a scalable path to resilient, sustainable data center power.
Intel shares insights on Arm vs. x86 efficiency, energy goals for 2030, AI-driven power demands, and how enterprises can navigate compute efficiency in the AI era.
From manure-to-energy RNG to an aluminum-air system that generates electricity on demand, innovators tackled real AI bottlenecks—power-chain integration, rapid fiber turn-ups, AI-driven permitting, and plug-and-play capacity that speeds time-to-value.
AMD improved energy efficiency 38x—roughly a 97% drop in energy for the same compute—and now targets 20x rack-scale gains by 2030, reimagining AI training, inference, and data-center design.
Dave Driggers, CEO of Cirrascale, breaks down what “compute efficiency” really means, from GPU utilization and TCO modeling to token-based pricing that drives predictable customer value.
From data center to edge, Arm is enabling full-stack AI efficiency, powering ecosystems with performance-per-watt optimization, tailored silicon, and software portability across environments.
Real-Time Energy Routing (RER) treats electricity like data—modular, dynamic, and software-defined—offering a scalable path to resilient, sustainable data center power.
Intel shares insights on Arm vs. x86 efficiency, energy goals for 2030, AI-driven power demands, and how enterprises can navigate compute efficiency in the AI era.
From manure-to-energy RNG to an aluminum-air system that generates electricity on demand, innovators tackled real AI bottlenecks—power-chain integration, rapid fiber turn-ups, AI-driven permitting, and plug-and-play capacity that speeds time-to-value.
AMD improved energy efficiency 38x—roughly a 97% drop in energy for the same compute—and now targets 20x rack-scale gains by 2030, reimagining AI training, inference, and data-center design.
Midas Immersion Cooling CEO Scott Sickmiller joins a Data Insights episode at OCP 2025 to demystify single-phase immersion, natural vs. forced convection, and what it takes to do liquid cooling at AI scale.
From hyperscale direct-to-chip to micron-level realities: Darren Burgess (Castrol) explains dielectric fluids, additive packs, particle risks, and how OCP standards keep large deployments on track.
From OCP San Jose, PEAK:AIO’s Roger Cummings explains how workload-aware file systems, richer memory tiers, and capturing intelligence at the edge reduce cost and complexity.
Innovative power delivery unlocks a shift in data-center design. CelLink PowerPlane routes thousands of amps in a flat, flexible circuit—cutting cabling and accelerating AI factory builds.
Recorded live at OCP in San Jose, Allyson Klein talks with CESQ’s Lesya Dymyd about hybrid quantum-classical computing, the new Maison du Quantique, and how real-world use cases may emerge over the next 5–7 years.
CEO Carl Schlachte joins TechArena at OCP Summit to share how Ventiva’s solid-state cooling—proven in dense laptops—scales to servers, cutting noise, complexity and power while speeding deployment.
In this In the Arena episode, Winbond’s Jun Kawaguchi discusses their industry-leading strategies for tackling next-gen cybersecurity threats, ensuring robust protection for the future.
In this podcast, PCI-SIG President Al Yanes explores PCI-SIG's journey to PCIe 7.0, advancements in copper and optical specs, and their pivotal role in HPC and AI.
In this podcast, NCSA Director Bill Gropp explores the latest advanced computing trends, from AI innovations to groundbreaking research on supercomputing climate models, and how this tech is transforming science and society.
Discover how AI is transforming data centers, with innovations in high-speed networking, emulation, and hyperscale infrastructure driving efficiency and performance in the era of AI workloads.
OCP’s Rob Coyle shares insights on AI, cooling innovations, and open hardware’s role in transforming data centers as the industry accelerates toward scalable, sustainable infrastructure.
In this episode, OCP CEO George Tchaparian shares how OCP is driving AI infrastructure innovation, fostering collaboration, and tackling scalability, efficiency, and sustainability challenges in data centers and beyond.