{"collectionById":{"bcf708d1-424e-449e-9382-88691121ad7d":{"id":"bcf708d1-424e-449e-9382-88691121ad7d","name":"News","fieldSchemas":[{"id":"942f9a99-35ac-4e35-b0e9-752d47821020","name":"AI Summary","type":"rich_text"},{"id":"9d08dbb6-b184-4ae4-b22f-9f3f8924442d","name":"Title","type":"plain_text","role":"primary"},{"id":"3f6d0f4f-c4b4-4f02-8833-663592fc6e0c","name":"Slug","type":"slug","role":"slug"},{"id":"541bbd8e-862c-47d0-aa0f-90a011bc7174","name":"Article Content","type":"rich_text"},{"id":"dde88ed0-d9af-4f9e-a9c7-f0dbb9066397","name":"Source Link","type":"link"},{"id":"4a26dc4c-b43e-406d-906d-1d19c35e85bc","name":"Author Name","type":"plain_text"},{"id":"424af2d3-c910-4d86-8121-a2b137a6d191","name":"Source","type":"plain_text"},{"id":"5a98c79d-a43a-4e25-be8d-5e8e272e4043","name":"Publish Date","type":"date"},{"id":"bb3d2ba1-c96c-4b92-930a-1e8414a803a9","name":"Type","type":"plain_text"}],"itemById":{"0f8be81e-f17a-41c3-a423-a2cfc45db9f1":{"id":"0f8be81e-f17a-41c3-a423-a2cfc45db9f1","index":"~OeNNNNNO","collectionId":"bcf708d1-424e-449e-9382-88691121ad7d","fields":[{"id":"a2789c64-104f-4822-a841-c50721fde519","value":"{\"url\":\"https://blogs.nvidia.com/blog/energy-efficiency-ai-factories-grid/\",\"openInNewTab\":false}","itemId":"0f8be81e-f17a-41c3-a423-a2cfc45db9f1","fieldSchemaId":"dde88ed0-d9af-4f9e-a9c7-f0dbb9066397"},{"id":"af29b644-512e-4dfe-a93c-07172b4526ec","value":"Inside NVIDIA and Emerald AI’s Vision for Self Optimizing Power Grids","itemId":"0f8be81e-f17a-41c3-a423-a2cfc45db9f1","fieldSchemaId":"9d08dbb6-b184-4ae4-b22f-9f3f8924442d"},{"id":"f65bdaab-9075-4ad4-8de3-f657da7b7e3e","value":"2026-04-01","itemId":"0f8be81e-f17a-41c3-a423-a2cfc45db9f1","fieldSchemaId":"5a98c79d-a43a-4e25-be8d-5e8e272e4043"},{"id":"f5c6de25-3633-483a-9b0c-919b3e73fc14","value":"Article","itemId":"0f8be81e-f17a-41c3-a423-a2cfc45db9f1","fieldSchemaId":"bb3d2ba1-c96c-4b92-930a-1e8414a803a9"},{"id":"859b11c2-d5c1-4527-8de6-f0eef7b5d039","value":"NVIDIA Blog","itemId":"0f8be81e-f17a-41c3-a423-a2cfc45db9f1","fieldSchemaId":"424af2d3-c910-4d86-8121-a2b137a6d191"},{"id":"38e57dad-1088-46db-95f6-08a2f3b03ee6","value":"{\"root\":{\"children\":[{\"children\":[{\"detail\":0,\"format\":0,\"mode\":\"normal\",\"style\":\"\",\"text\":\"A new model for balancing performance, cost and resilience across modern energy infrastructure\",\"type\":\"text\",\"version\":1}],\"direction\":\"ltr\",\"format\":\"\",\"indent\":0,\"type\":\"heading\",\"version\":1,\"tag\":\"h4\"},{\"children\":[],\"direction\":null,\"format\":\"\",\"indent\":0,\"type\":\"paragraph\",\"version\":1,\"textFormat\":0,\"textStyle\":\"\"},{\"children\":[{\"detail\":0,\"format\":0,\"mode\":\"normal\",\"style\":\"\",\"text\":\"At CERAWeek, NVIDIA and Emerald AI introduced a novel approach to multi-agent AI orchestration for energy grids by treating AI factories as intelligent, flexible participants in power systems. The combined Vera Rubin DSX reference design and Emerald AI’s Conductor platform serve as autonomous agents that adjust compute loads to real-time grid signals. This integration matters for utility CTOs looking to balance performance per watt against the capital cost of peaking infrastructure.\",\"type\":\"text\",\"version\":1}],\"direction\":\"ltr\",\"format\":\"\",\"indent\":0,\"type\":\"paragraph\",\"version\":1,\"textFormat\":0,\"textStyle\":\"\"},{\"children\":[{\"detail\":0,\"format\":0,\"mode\":\"normal\",\"style\":\"\",\"text\":\"Power constraints have elevated tokens per second per watt as the critical metric for modern data centers. Gulf utilities must implement energy orchestration workflows to optimize tokens per second per watt performance in AI factories and leverage dynamic load balancing for AI agents to manage demand variability. By co-designing compute, networking and control, enterprises can reduce operational expenses, boost resilience and scale AI deployments predictably.\",\"type\":\"text\",\"version\":1}],\"direction\":\"ltr\",\"format\":\"\",\"indent\":0,\"type\":\"paragraph\",\"version\":1,\"textFormat\":0,\"textStyle\":\"\"},{\"children\":[],\"direction\":\"ltr\",\"format\":\"\",\"indent\":0,\"type\":\"paragraph\",\"version\":1,\"textFormat\":0,\"textStyle\":\"\"},{\"children\":[{\"detail\":0,\"format\":0,\"mode\":\"normal\",\"style\":\"\",\"text\":\"Multi-agent AI orchestration for energy grids offers utility operators across the Middle East a flexible control plane to manage variable demand. Saudi grid operators pilot digital twins and AI agent controllers to forecast solar output and schedule GPU-intensive training jobs around evening peaks. UAE power producers are exploring distributed agent networks that coordinate battery storage, AI compute and conventional turbines within a unified control system. Organizations piloting agentic AI frameworks should review our AI Agents \u0026 Automation pilot pillar page on agentic AI orchestration frameworks.\",\"type\":\"text\",\"version\":1}],\"direction\":\"ltr\",\"format\":\"\",\"indent\":0,\"type\":\"paragraph\",\"version\":1,\"textFormat\":0,\"textStyle\":\"\"},{\"children\":[],\"direction\":\"ltr\",\"format\":\"\",\"indent\":0,\"type\":\"paragraph\",\"version\":1,\"textFormat\":0,\"textStyle\":\"\"},{\"children\":[{\"detail\":0,\"format\":0,\"mode\":\"normal\",\"style\":\"\",\"text\":\"In Oman, leading utility operators have begun piloting digital twin simulations to validate the integration of large AI compute loads with transmission networks. These simulations address governance and interoperability challenges by mapping control protocols between AI orchestration layers and legacy SCADA systems. Utility leaders must define clear data ownership, security policies and grid compliance checkpoints to ensure these AI-driven assets operate within regulatory boundaries and do not disrupt system stability.\",\"type\":\"text\",\"version\":1}],\"direction\":\"ltr\",\"format\":\"\",\"indent\":0,\"type\":\"paragraph\",\"version\":1,\"textFormat\":0,\"textStyle\":\"\"},{\"children\":[],\"direction\":\"ltr\",\"format\":\"\",\"indent\":0,\"type\":\"paragraph\",\"version\":1,\"textFormat\":0,\"textStyle\":\"\"},{\"children\":[{\"detail\":0,\"format\":0,\"mode\":\"normal\",\"style\":\"\",\"text\":\"Enterprises evaluating multi-agent AI orchestration partners should prioritize pilots that include high-fidelity modeling of grid behavior and real-time control loops. The criteria that separate successful deployments from stalled proofs of concept include robust cross-border compliance alignment and seamless integration with existing energy management platforms. Vendors experienced in Gulf interconnection processes will better navigate regional regulatory frameworks and accelerate time to power.\",\"type\":\"text\",\"version\":1}],\"direction\":\"ltr\",\"format\":\"\",\"indent\":0,\"type\":\"paragraph\",\"version\":1,\"textFormat\":0,\"textStyle\":\"\"},{\"children\":[],\"direction\":\"ltr\",\"format\":\"\",\"indent\":0,\"type\":\"paragraph\",\"version\":1,\"textFormat\":0,\"textStyle\":\"\"},{\"children\":[{\"detail\":0,\"format\":0,\"mode\":\"normal\",\"style\":\"\",\"text\":\"Looking ahead, CTOs and digital leads should monitor collaboration between AI orchestration platforms and renewable forecasting models. Embedding multi-agent AI orchestration for energy grids into strategic roadmaps demands a unified view of compute and grid operations. Organizations that adopt these architectures early will gain agility, cost efficiency and the flexibility to power next-generation AI workloads at scale.\",\"type\":\"text\",\"version\":1}],\"direction\":\"ltr\",\"format\":\"\",\"indent\":0,\"type\":\"paragraph\",\"version\":1,\"textFormat\":0,\"textStyle\":\"\"},{\"children\":[],\"direction\":null,\"format\":\"\",\"indent\":0,\"type\":\"paragraph\",\"version\":1,\"textFormat\":0,\"textStyle\":\"\"},{\"children\":[{\"detail\":0,\"format\":0,\"mode\":\"normal\",\"style\":\"\",\"text\":\"The MARAF Perspective\",\"type\":\"text\",\"version\":1}],\"direction\":\"ltr\",\"format\":\"\",\"indent\":0,\"type\":\"heading\",\"version\":1,\"tag\":\"h4\"},{\"children\":[],\"direction\":\"ltr\",\"format\":\"\",\"indent\":0,\"type\":\"paragraph\",\"version\":1,\"textFormat\":0,\"textStyle\":\"\"},{\"children\":[{\"detail\":0,\"format\":0,\"mode\":\"normal\",\"style\":\"\",\"text\":\"Deploying AI factories as grid assets requires more than technical integration. In our engagements with Gulf utilities, we have seen that aligning digital twin validations with regional grid codes and embedding governance frameworks into the orchestration layer is essential. Experience deploying Azure AI-driven simulations shows that interoperability with legacy SCADA and clear data governance models are the key factors in moving from pilot to production.\",\"type\":\"text\",\"version\":1}],\"direction\":\"ltr\",\"format\":\"\",\"indent\":0,\"type\":\"paragraph\",\"version\":1,\"textFormat\":0,\"textStyle\":\"\"}],\"direction\":\"ltr\",\"format\":\"\",\"indent\":0,\"type\":\"root\",\"version\":1}}","itemId":"0f8be81e-f17a-41c3-a423-a2cfc45db9f1","fieldSchemaId":"541bbd8e-862c-47d0-aa0f-90a011bc7174"},{"id":"e0bd110c-d91b-48c7-9dc6-aa956dddcba8","value":"Vladimir Troy","itemId":"0f8be81e-f17a-41c3-a423-a2cfc45db9f1","fieldSchemaId":"4a26dc4c-b43e-406d-906d-1d19c35e85bc"},{"id":"07eb1f82-bd1e-48f6-bc3f-8f34bb68e819","value":"{\"root\":{\"children\":[{\"children\":[{\"detail\":0,\"format\":0,\"mode\":\"normal\",\"style\":\"\",\"text\":\"NVIDIA and Emerald AI demonstrated at CERAWeek an AI factory reference architecture that treats compute facilities as flexible grid assets under dynamic orchestration. Built on NVIDIA’s Vera Rubin DSX design and Emerald AI’s Conductor platform, the system integrates compute, networking and control layers to flex capacity based on grid conditions. Energy partners including AES, NextEra Energy and Vistra are collaborating on hybrid projects to co-locate AI loads with flexible generation, improving reliability and efficiency. This marks a shift towards multi-agent AI orchestration for energy grids, prioritizing tokens per second per watt optimization.\",\"type\":\"text\",\"version\":1}],\"direction\":\"ltr\",\"format\":\"\",\"indent\":0,\"type\":\"paragraph\",\"version\":1,\"textFormat\":0,\"textStyle\":\"\"}],\"direction\":\"ltr\",\"format\":\"\",\"indent\":0,\"type\":\"root\",\"version\":1}}","itemId":"0f8be81e-f17a-41c3-a423-a2cfc45db9f1","fieldSchemaId":"942f9a99-35ac-4e35-b0e9-752d47821020"}]}}},"d4a5b68c-8afd-4bbe-a7ac-e9a8422fedde":{"id":"d4a5b68c-8afd-4bbe-a7ac-e9a8422fedde","name":"Blog Articles","fieldSchemas":[{"id":"402ba26f-8f6d-4f5f-bf20-62e6549f4ad4","name":"Slug","type":"slug","role":"slug"}],"itemById":{"80345e24-6050-439b-9c3b-9e1690a6a5de":{"id":"80345e24-6050-439b-9c3b-9e1690a6a5de","index":"\"","collectionId":"d4a5b68c-8afd-4bbe-a7ac-e9a8422fedde","fields":[{"id":"9c0086b7-c506-4fe2-b088-65f1002a2759","value":"the-threshold","itemId":"80345e24-6050-439b-9c3b-9e1690a6a5de","fieldSchemaId":"402ba26f-8f6d-4f5f-bf20-62e6549f4ad4"}]}}}},"slugByItemId":{"2605cf58-a028-4c72-a13a-2eb5014bfdfa":"openais-vision-for-autonomous-ai-researchers-in-enterprise-innovation","e24eea15-d178-4c84-a81e-649514d5ca68":"anthropics-mythos-takes-on-banks-security","12630544-d915-47aa-9188-db48d0176af5":"the-weekly-prompt-week-16-2026","318e4b80-b4ff-4f72-9684-07177fcde8a9":"how-to-deploy-ai-agents-in-enterprise-production-with-nvidias-nemoclaw","95a6bb15-9105-43b1-85fa-07d12e19b32e":"the-weekly-prompt-week-12-2026","e1b72e7a-5a62-4213-b679-1221dcb018a6":"anthropics-auto-mode-redefines-safe-autonomous-coding","4effc5b5-b614-47a0-957f-ceb6892aba73":"the-weekly-prompt-week-13-2026","818ad4f5-b4bb-4e1c-8366-28bff39146ab":"amazon-unleashes-a-evolve-bringing-ai-agents-that-improve-themselves","9bfcd696-9831-4d2d-a24e-37203878c818":"japan-is-proving-that-physical-ai-is-the-next-industrial-revolution","ea437448-1626-456b-b5b9-ad8764159651":"three-layer-ai-agent-stack-remember-reason-and-review","83640b46-1388-4cb6-9e65-881339e5d211":"adobe-nvidia-and-wpp-are-changing-whats-possible-in-enterprise-marketing","6dba6360-5070-4caa-9446-95ec4e17d891":"the-weekly-prompt-week-18-2026","e01e8e3c-0df8-4808-aed1-41622f2c6e90":"microsoft-brings-ai-contract-review-directly-into-word-for-legal-teams","0f9e7798-dd9f-4190-89ad-335ad277f2f8":"powering-secure-on-prem-ai-agents-with-nvidias-gtc-toolkit","0f8be81e-f17a-41c3-a423-a2cfc45db9f1":"inside-nvidia-and-emerald-ais-vision-for-self-optimizing-power-grids","43376785-1bbc-4499-afa2-67f9afb400d5":"the-weekly-prompt-week-15-2026","3bbc4914-4e7c-4852-9650-c8b884665414":"the-weekly-prompt-week-17-2026","d341f841-ccef-4c64-bf9a-9c657c3e9f73":"anthropic-proves-ai-agents-can-close-deals","54b2e470-756e-48d2-a5d1-457d3490bff4":"aws-and-openai-team-up-to-challenge-microsofts-ai-cloud-dominance","2d6fb714-58f4-454f-90e1-97f86a0da807":"the-weekly-prompt-week-14-2026","5d90f71b-9071-400f-81a1-e2a7a79559ce":"mastering-agent-first-ai-implementation-for-enterprise-workflows-at-scale","cc93df4a-f1f5-4cfd-857c-0a82f1c1e843":"vercels-ipo-moment-as-rauch-bets-on-ai-agents-to-fuel-growth","80345e24-6050-439b-9c3b-9e1690a6a5de":"the-threshold"}}