Introducing Azure AI Agent Service
Introducing Azure AI Agent Service at Microsoft Ignite 2024 Discover how Azure AI Agent Service is revolutionizing the development and deployment of AI agents. This service empowers developers to build, deploy, and scale high-quality AI agents tailored to business needs within hours. With features like rapid development, extensive data connections, flexible model selection, and enterprise-grade security, Azure AI Agent Service sets a new standard in AI automationDiscover the Azure AI Training Profiler: Transforming Large-Scale AI Jobs
Meet the AI Training Profiler Large-scale AI training can be complicated, especially in distributed environments like healthcare, finance, and e-commerce, where the need for accuracy, speed, and massive data processing is crucial. Efficiently managing hardware resources, ensuring smooth parallelism, and minimizing bottlenecks are crucial for optimal performance. The AI Training Profiler powered by PyTorch Profiler inAzure Machine Learning is here to help! By giving you detailed visibility into hardware and software metrics, this tool helps you spot inefficiencies, make the best use of resources, and scale your training workflows like a pro. Why Choose the AI Training Profiler? Running large AI training jobs on distributed infrastructure is inherently complex, and inefficiencies can quickly escalate into increased costs and delays in deploying models. The AI Training Profiler addresses these issues by providing a comprehensive breakdown of compute resource usage throughout the training lifecycle. This enables users to fine-tune and streamline their AI workflows, yielding several key benefits: Improved Performance: Identify bottlenecks and inefficiencies, such as slow data loading or underutilized GPUs, to enhance training throughput. Reduced Costs: Detect idle or underused resources, thereby minimizing compute time and hardware expenses. Faster Debugging: Leverage real-time monitoring and intuitive visualizations to troubleshoot performance issues swiftly. Key Features of the AI Training Profiler GPU Core and Tensor Core Utilization The profiler meticulously tracks GPU kernel execution, reporting utilization metrics such as time spent on forward and backward passes, tensor core operations, and other computation-heavy tasks. This detailed breakdown enables users to pinpoint under-utilized resources and optimize kernel execution patterns. Memory Profiling Memory Allocation and Peak Usage: Monitors GPU memory usage throughout the training process, offering insights into underutilized or over-allocated memory. CUDA Memory Footprint: Visualizes memory consumption during forward/backward propagation and optimizer steps to identify bottlenecks or fragmentation. Page Fault and Out-of-Memory Events: Detects critical events that could slow training or cause job failures due to insufficient memory allocation. Kernel Execution Metrics Kernel Execution Time: Provides per-kernel timing, breaking down execution into compute-bound and memory-bound operations, allowing users to discern whether performance bottlenecks stem from inefficient kernel launches or memory access patterns. Instruction-level Performance: Measures IPC (Instructions Per Cycle) to understand kernel-level performance and identify inefficient operations. Distributed Training Communication Primitives: Captures inter-GPU and inter-node communication patterns, focusing on the performance of primitives like AllReduce, AllGather, and Broadcast in multi-GPU training. This helps users identify communication bottlenecks such as imbalanced data distribution or excessive communication overhead. Synchronization Events: Measures the time spent on synchronization barriers between GPUs, highlighting where parallel execution is slowed by synchronization. Getting Started with the Profiling Process Using the AI Training Profiler is a breeze! Activate it when you launch a job, either through the CLI or our platform’s user-friendly interface. Here are the three environment variables you need to set: Enable/Disable the Profiler: ENABLE_AZUREML_TRAINING_PROFILER: 'true' Configure Trace Capture Duration: AZUREML_PROFILER_RUN_DURATION_MILLISECOND: '50000' Delay the Start of Trace Capturing: AZUREML_PROFILER_WAIT_DURATION_SECOND: '1200' Once your training job is running, the profiler collects metrics and stores them centrally. After the run, this data is analyzed to give you visual insights into critical metrics like kernel execution times. Use Cases The AI Training Profiler is a game-changer for fine-tuning large language models and other extensive architectures. By ensuring efficient GPU utilization and minimizing distributed training costs, this tool helps organizations get the most out of their infrastructure, whether they're working on cutting-edge models or refining existing workflows. In conclusion, the AI Training Profiler is a must-have for teams running large-scale AI training jobs. It offers the visibility and control needed to optimize resource utilization, reduce costs, and accelerate time to results. Embrace the future of AI training optimization with the AI Training Profiler and unlock the full potential of your AI endeavors. How to Get Started? The feature is available as a preview, you can just set up the environment variables and start using the profiler! Stay tuned for future repository with many samples that you can use as well!Announcing management center and other tools to secure and govern Azure AI Foundry
We’re pleased to share new security and IT governance capabilities in Azure AI Foundry that can help organizations build and scale GenAI solutions that are secure by default, including a new management center, granular networking controls, and the general availability of data and service connections.The Evolution of AI Frameworks: Understanding Microsoft's Latest Multi-Agent Systems
The landscape of artificial intelligence is undergoing a fundamental transformation in late 2024. Microsoft has unveiled three groundbreaking frameworks—AutoGen 0.4, Magentic-One, and TinyTroupe—that are revolutionizing how we approach AI development. Moving beyond single-model systems, these frameworks represent a shift toward collaborative AI, where multiple specialized agents work together to solve complex problems. Think of these frameworks as different but complementary systems, much like how a city needs infrastructure, service providers, and community organizations to function effectively. AutoGen 0.4 provides the robust foundation, Magentic-One orchestrates complex tasks through specialized agents, and TinyTroupe simulates human behavior for business insights. Together, they form a comprehensive ecosystem for building the next generation of intelligent systems. As we explore each framework in detail, we'll see how this coordinated approach is opening new possibilities in AI development, from enterprise-scale applications to sophisticated business simulations. Framework Comparison: A Deep Dive Before we explore each framework in detail, let's understand how they compare across key dimensions. These comparisons will help us understand where each framework excels and how they complement each other. Core Capabilities and Design Focus Aspect AutoGen 0.4 Magentic-One TinyTroupe Primary Architecture Layered & Event-driven Orchestrator-based Persona-based Core Strength Infrastructure & Scalability Task Orchestration Human Simulation Development Stage Beta Preview Early Release Target Users Enterprise Developers Automation Teams Business Analysts Key Innovation Cross-language Support Dual-loop Orchestration Persona Modeling Deployment Model Cloud/On-premise Container-based Local Main Use Case Enterprise Systems Task Automation Business Insights AutoGen 0.4: The Digital Infrastructure Builder Imagine building a modern city. Before any services can operate, you need robust infrastructure – roads, power grids, water systems, and communication networks. AutoGen 0.4 serves a similar foundational role in the AI ecosystem. It provides the essential infrastructure that allows Agentic systems to operate at enterprise scale. The framework's brilliance lies in its three-layer architecture: The Core Layer acts as the fundamental infrastructure, handling basic communication and resource management, much like a city's utility systems. The AgentChat Layer provides high-level interaction capabilities, similar to how city services interface with residents. The Extensions Layer enables specialized functionalities, comparable to how cities can add new services based on specific needs. What truly sets AutoGen 0.4 apart is its understanding of real-world enterprise needs. Modern organizations rarely operate with a single technology stack – they might use Python for data science, .NET for backend services, and other languages for specific needs. AutoGen 0.4 embraces this reality through its multi-language support, ensuring different components can communicate effectively while maintaining strict type safety to prevent errors. from autogen_agentchat.agents import AssistantAgent from autogen_agentchat.task import Console from autogen_ext.models import OpenAIChatCompletionClient async def enterprise_example(): # Create an enterprise agent with specific configuration agent = AssistantAgent( name="enterprise_system", model_client=OpenAIChatCompletionClient( model="gpt-4o-2024-08-06", api_key="YOUR_API_KEY" ) ) # Define a complex enterprise task task = { "objective": "Analyze sales data and generate insights", "data_source": "sales_database", "output_format": "report" } # Execute task with streaming output stream = agent.run_stream(task=task) await Console(stream) # Example usage: # asyncio.run(enterprise_example()) Magentic-One: The Master Orchestra Conductor If AutoGen 0.4 builds the city's infrastructure, Magentic-One acts as its management system. Think of it as a highly skilled orchestra conductor, coordinating various musicians (specialized agents) to create a harmonious performance (completed tasks). The framework's innovative dual-loop architecture demonstrates this orchestration: The Task Ledger works like a conductor's score, planning out what needs to be done. The Progress Ledger functions as the conductor's real-time monitoring, ensuring each section performs its part correctly. Magentic-One's specialized agents exemplify this orchestra metaphor: WebSurfer: Like the string section, handling intricate web interactions FileSurfer: Similar to the percussion section, managing rhythmic file operations Coder: Comparable to the brass section, producing powerful code outputs ComputerTerminal: Like the woodwinds, executing precise commands This specialization has proven its worth through impressive benchmark performances across GAIA, AssistantBench, and WebArena, showing that specialized expertise, when properly coordinated, produces superior results. from magentic_one import ( Orchestrator, WebSurfer, FileSurfer, Coder, ComputerTerminal ) def automation_example(): # Initialize specialized agents agents = { 'web': WebSurfer(), 'file': FileSurfer(), 'code': Coder(), 'terminal': ComputerTerminal() } # Create orchestrator with task and progress ledgers orchestrator = Orchestrator(agents) # Define complex automation task task = { "type": "web_automation", "steps": [ {"action": "browse", "url": "example.com"}, {"action": "extract", "data": "pricing_info"}, {"action": "save", "format": "csv"} ] } # Execute orchestrated task result = orchestrator.execute_task(task) return result # Example usage: # result = automation_example() TinyTroupe: The Social Behavior Laboratory TinyTroupe takes a fundamentally different approach, more akin to a sophisticated social simulation laboratory than a traditional AI framework. Instead of focusing on task completion, it seeks to understand and replicate human behavior, much like how social scientists study human interactions and decision-making. The framework creates detailed artificial personas (TinyPersons) with rich backgrounds, personalities, and behaviors. Think of it as creating a miniature society where researchers can observe how different personality types interact with products, services, or each other. These personas exist within controlled environments (TinyWorlds), allowing for systematic observation and analysis. Consider a real-world parallel: When automotive companies design new vehicles, they often create detailed driver personas to understand different user needs. TinyTroupe automates and scales this approach, allowing businesses to simulate thousands of interactions with different personality types, providing insights that would be impractical or impossible to gather through traditional focus groups. The beauty of TinyTroupe lies in its ability to capture the nuances of human behavior. Just as no two people are exactly alike, each TinyPerson brings its unique perspective, shaped by its programmed background, experiences, and preferences. This diversity enables more realistic and valuable insights for business decision-making. from tinytroupe import TinyPerson, TinyWorld, TinyPersonFactory from tinytroupe.utils import ResultsExtractor def simulation_example(): # Create simulation environment world = TinyWorld("E-commerce Platform") # Generate diverse personas factory = TinyPersonFactory() personas = [ factory.generate_person( "Create a tech-savvy professional who values efficiency" ), factory.generate_person( "Create a budget-conscious parent who prioritizes safety" ), factory.generate_person( "Create a senior citizen who prefers simplicity" ) ] # Add personas to simulation world for persona in personas: world.add_person(persona) # Define simulation scenario scenario = { "type": "product_evaluation", "product": "Smart Home Device", "interaction_points": ["discovery", "purchase", "setup"] } # Run simulation and extract insights results = world.run_simulation(scenario) insights = ResultsExtractor().analyze(results) return insights # Example usage: # insights = simulation_example() Framework Selection Guide To help you make an informed decision, here's a comprehensive selection matrix based on specific needs: Need Best Choice Reason Alternative Enterprise Scale AutoGen 0.4 Built for distributed systems Magentic-One Task Automation Magentic-One Specialized agents AutoGen 0.4 User Research TinyTroupe Persona simulation None High Performance AutoGen 0.4 Optimized architecture Magentic-One Quick Deployment TinyTroupe Minimal setup Magentic-One Complex Workflows Magentic-One Strong orchestration AutoGen 0.4 Practical Implications For organizations looking to implement these frameworks, consider the following guidance: For Enterprise Applications: Use AutoGen 0.4 as your foundation. Its robust infrastructure and cross-language support make it ideal for building scalable, production-ready systems. For Complex Automation: Implement Magentic-One for tasks requiring sophisticated orchestration. Its specialized agents and safety features make it perfect for automated workflows. For Business Intelligence: Deploy TinyTroupe for market research and user behavior analysis. Its unique simulation capabilities provide valuable insights for business decision-making. Conclusion Microsoft's three-pronged approach to multi-agent AI systems represents a significant leap forward in artificial intelligence. By addressing different aspects of the AI development landscape – infrastructure (AutoGen 0.4), task execution (Magentic-One), and human simulation (TinyTroupe) – these frameworks provide a comprehensive toolkit for building the next generation of AI applications. As these frameworks continue to evolve, we can expect to see even more sophisticated capabilities and tighter integration between them. Organizations that understand and leverage the strengths of each framework will be well-positioned to build powerful, scalable, and intelligent systems that drive real business value. Appendix Technical Implementation Details Feature AutoGen 0.4 Magentic-One TinyTroupe Language Support Python, .NET Python Python State Management Distributed Centralized Environment-based Message Passing Async Event-driven Task-based Simulation-based Error Handling Comprehensive Task-specific Simulation-bound Monitoring Enterprise-grade Task-focused Analysis-oriented Extensibility High Medium Framework-bound Performance and Scalability Metrics Metric AutoGen 0.4 Magentic-One TinyTroupe Response Time Milliseconds Seconds Variable Concurrent Users Thousands Hundreds Dozens Resource Usage Optimized Task-dependent Simulation-dependent Horizontal Scaling Yes Limited No State Persistence Distributed Cache Container Storage Local Files Recovery Capabilities Advanced Basic Manual Security and Safety Features Security Aspect AutoGen 0.4 Magentic-One TinyTroupe Access Control Role-based Container-based Environment-based Content Filtering Enterprise-grade Active Monitoring Simulation Bounds Audit Logging Comprehensive Action-based Simulation Logs Isolation Level Service Container Process Risk Assessment Dynamic Pre-execution Scenario-based Recovery Options Automated Semi-automated Manual Integration and Ecosystem Support Integration Type AutoGen 0.4 Magentic-One TinyTroupe API Support REST, gRPC REST Python API External Services Extensive Web-focused Limited Database Support Multiple Basic Simulation Only Cloud Services Full Support Container Services Local Only Custom Extensions Yes Limited Framework-bound Third-party Tools Wide Support Moderate MinimalAnnouncing Model Fine-Tuning Collaborations: Weights & Biases, Scale AI, Gretel and Statsig
As AI continues to transform industries, the ability to fine-tune models and customize them for specific use cases has become more critical than ever. Fine-tuning can enable companies to align models with their unique business goals, ensuring that AI solutions deliver results with greater precision However, organizations face several hurdles in their model customization journey: Lack of end-to-end tooling: Organizations struggle with fine-tuning foundation models due to complex processes, and the absence of tracking and evaluation tools for modifications. Data scarcity and quality: Limited access to large, high-quality datasets, along with privacy issues and high costs, complicate model training and fine-tuning. Shortage of fine-tuning expertise and pre-trained models: Many companies lack specialized knowledge and access to refined models for fine-tuning. Insufficient experimentation tools: A lack of tools for ongoing experimentation in production limits optimization of key variables like model diversity and operational efficiency. To address these challenges, Azure AI Foundry is pleased to announce new collaborations with Weights & Biases, Scale AI, Gretel and Statsig to streamline the process of model fine-tuning and experimentation through advanced tools, synthetic data and specialized expertise. Weights & Biases integration with Azure OpenAI Service: Making end-to-end fine-tuning accessible with tooling The integration of Weights & Biases with Azure OpenAI Service offers a comprehensive end-to-end solution for enterprises aiming to fine-tune foundation models such as GPT-4, GPT-4o, and GPT-4o mini. This collaboration provides a seamless connection between Azure OpenAI Service and Weights and Biases Models which offers powerful capabilities for experiment tracking, visualization, model management, and collaboration. With the integration, users can also utilize Weights and Biases Weave to evaluate, monitor, and iterate on the performance of their fine-tuned models powered AI applications in real-time. Azure's scalable infrastructure allows organizations to handle the computational demands of fine-tuning, while Weights and Biases offers robust capabilities for fine-tuning experimentation and evaluation of LLM-powered applications. Whether optimizing GPT-4o for complex reasoning tasks or using the lightweight GPT-4o mini for real-time applications, the integration simplifies the customization of models to meet enterprise-specific needs. This collaboration addresses the growing demand for tailored AI models in industries such as retail and finance, where fine-tuning can significantly improve customer service chatbots or complex financial analysis. Azure Open AI Service and Weights & Biases integration is now available in public preview. For further details on Azure OpenAI Service and Weights & Biases integration including real-world use-cases and a demo, refer to the blog here. Scale AI and Azure Collaboration: Confidently Implement Agentic GenAI Solutions in Production Scale AI collaborates with Azure AI Foundry to offer advanced fine-tuning and model customization for enterprise use cases. It enhances the performance of Azure AI Foundry models by providing high-quality data transformation, fine-tuning and customization services, end-to-end solution development and specialized Generative AI expertise. This collaboration helps improve the performance of AI-driven applications and Azure AI services such as Azure AI Agent in Azure AI Foundry, while reducing production time and driving business impact. "Scale is excited to partner with Azure to help our customers transform their proprietary data into real business value with end-to-end GenAI Solutions, including model fine-tuning and customization in Azure." Vijay Karunamurthy, Field CTO, Scale AI Checkout a demo in BRK116 session showcasing how Scale AI’s fine-tuned models can improve agents in Azure AI Foundry and Copilot Studio. In the coming months, Scale AI will offer fine-tuning services for Azure AI Agents in Azure AI Foundry. For more details, please refer to this blog and start transforming your AI initiatives by exploring Scale AI on the Azure Marketplace. Gretel and Azure OpenAI Service Collaboration: Revolutionizing data pipeline for custom AI models Azure AI Foundry is collaborating with Gretel, a pioneer in synthetic data and privacy technology, to remove data bottlenecks and bring advanced AI development capabilities to our customers. Gretel's platform enables Azure users to generate high-quality datasets for ML and AI through multiple approaches - from prompts and seed examples to differential privacy-preserved synthetic data. This technology helps organizations overcome key challenges in AI development including data availability, privacy requirements, and high development costs with support for structured, unstructured, and hybrid text data formats. Through this collaboration, customers can seamlessly generate datasets tailored to their specific use cases and industry needs using Gretel, then use them directly in Azure OpenAI Service for fine-tuning. This integration greatly reduces both costs and time compared to traditional data labeling methods, while maintaining strong privacy and compliance standards. The collaboration enables new use cases for Azure AI Foundry customers who can now easily use synthetic data generated by Gretel for training and fine-tuning models. Some of the new use cases include cost-effective improvements for Small Language Models (SLMs), improved reasoning abilities of Large Language Models (LLMs), and scalable data generation from limited real-world examples. This value is already being realized by leading enterprises. “EY is leveraging the privacy-protected synthetic data to fine-tune Azure OpenAI Service models in the financial domain," said John Thompson, Global Client Technology AI Lead at EY. "Using this technology with differential privacy guarantees, we generate highly accurate synthetic datasets—within 1% of real data accuracy—that safeguard sensitive financial information and prevent PII exposure. This approach ensures model safety through privacy attack simulations and robust data quality reporting. With this integration, we can safely fine-tune models for our specific financial use cases while upholding the highest compliance and regulatory standards.” The Gretel integration with Azure OpenAI Service is available now through Gretel SDK. Explore this blog describing a finance industry case study and checkout details in technical documentation for fine-tuning Azure OpenAI Service models with synthetic data from Gretel. Visit this page to learn more Statsig and Azure Collaboration: Enabling Experimentation in AI Applications Statsig is a platform for feature management and experimentation that helps teams manage releases, run powerful experiments, and measure the performance of their products. Statsig and Azure AI Foundry are collaborating to enable customers to easily configure and run experiments (A/B tests) in Azure AI-powered applications, using Statsig SDKs in Python, NodeJS and .NET. With these Statsig SDKs, customers can manage the configuration of their AI applications, manage the release of new configurations, run A/B tests to optimize model and application performance, and automatically collect metrics at the model and application level. Please check out this page to learn more about the collaboration and get detailed documentation here. Conclusion The new collaborations between Azure and Weights & Biases, Scale AI, Gretel and Statsig represent a significant step forward in simplifying the process of AI model customization. These collaborations aim to address the common pain points associated with fine-tuning models, including lack of end-to-end tooling, data scarcity and privacy concerns, lack of expertise and experimentation tooling. Through these collaborations, Azure AI Foundry will empower organizations to fine-tune and customize models more efficiently, ultimately enabling faster, more accurate AI deployments. Whether it’s through better model tracking, access to synthetic data, or scalable data preparation services, these collaborations will help businesses unlock the full potential of AI.A Roadmap to Microsoft Ignite 2024 for AI Developers at Startups and Cloud-First Companies
Microsoft Ignite starts November 19th. Register now to attend virtually. Microsoft Ignite, the annual conference where customers, partners, and tech professionals come together to learn about Microsoft technology and AI solutions kicks off Nov 19 th in Chicago. If you don’t already have a pass to attend in-person, you can register as a virtual attendee and get access to all the keynotes and breakout sessions. Generative AI is rapidly evolving. Take for example, the recent launch of OpenAI’s newest models o1-preview and o1-mini. These models have enhanced reasoning capabilities with multistep reasoning. While earlier models excelled at language tasks such as writing and editing, the new models are designed to handle complex reasoning tasks such as advanced mathematics, coding, and STEM-based questions. They use a “chain of thought” technique that leads to increased accuracy versus earlier language-based models. Each generation of models continues to provide considerable performance improvement with lower costs. And that’s just OpenAI. There is a plethora of cutting-edge solutions providing models, frameworks, vector databases, LLM observability platforms, and many more tools for developers building GenAI apps. GenAI has spurred a record share of startup funding this year with 35% of US startup investment going to AI-related companies per Crunchbase data. All these advancements are making GenAI easier to build, more affordable and suitable for a wide range of use cases. While a large majority of the companies are jumping on the genAI bandwagon, experimenting with use cases and technologies, many are not running genAI apps at scale in production just yet. Microsoft has been an early innovator in the GenAI wave, and has been recognized as a leader in the 2024 Gartner Magic Quadrant for Cloud AI Developer Services as well as the latest Gartner Magic Quadrant for Cloud Application Platform. Microsoft Ignite promises to feature exciting announcements and learning opportunities to help you build, deploy, and run your GenAI apps at scale securely and responsibly. More importantly, you’ll also hear from peers at leading startups and at-scale cloud-first companies on how they are innovating and disrupting with GenAI. Here are the top must-watch sessions: Microsoft Ignite opening keynote (Nov 19, 6-8.30am PST). Reason to watch: Satya Nadella, CEO Microsoft, will be joined by Scott Guthrie, EVP Cloud and AI, Charlie Bell, EVP Microsoft Security, and Rajesh Jha, EVP Experiences and Devices, to talk about how this era of AI will unlock new opportunities, transform how developers work and drive business productivity across industries. Implementing AI Responsibly and Securely (Nov 19, 12.45-1.30pm PST). Reason to watch: The session addresses startup-specific issues like limited resources, ethical considerations, and building scalable AI solutions, offering practical tips. Annie Pearl, CVP/GM of Azure Experiences and Ecosystems leads this session featuring Adriano Koshiyama, Co-Founder Holistic AI and Sam Dover, Global AI Strategy Lead at Unilever. How Microsoft can help you build and sell differentiated AI apps (Nov 19, 2-2.45pm PST). Reason to watch: Startups and cloud-first companies are looking not just for a cloud platform to build their genAI apps on, but also a reliable technology partner that can help them grow their business. Jason Graefe, CVP ISV and Digital Natives is joined by Microsoft leaders for AI, developer services, and application platform as well as Adam Binnie, Chief Innovation Officer at Visier and Jeff Zobrist, VP global Partner Network and GTM at Siemens Digital Industries Software, to dive deep into building on the Microsoft Cloud and partnering with Microsoft to grow your business. Strategies for enterprises to fast-track AI adoption (Nov 21, 6.30-7.15 am PST). Reason to watch: This fireside chat, led by Tom Davis, Partner at Microsoft for Startups features Shlomi Avigdor, CPO Dataloop AI, Surojit Chatterjee, Founder and CEO Ema Unlimited, and Gil Perry, CEO and Co-founder D-ID. It delves into strategies and methods from industry leading startups who have worked hand in hand with global Enterprises to expedite the integration and widespread use of artificial intelligence across various industries. Inspire AI enterprise revolution with innovations from NVIDIA startups (Nov 21, 7.45-8.30 am PST). Reason to watch: NVIDIA Inception Head of Cloud Partnerships, Jennifer Hoskins, hosts a power-packed panel including Dr Vibhor Gupta, CEO Pangaea Data, Lauren Nemeth, COO Pinecone, and Andrew Gostine, CEO Artisight to Gain insights into how AI is driving groundbreaking innovations, enhancing efficiency, and creating new business opportunities across sectors. Unicorns Unleashed: Scaling Innovation with Microsoft (Nov 21, 12.30-1 pm PST). Reason to watch: If you are going to be attending in-person in Chicago, this panel led by Ross Kennedy, VP Digital Natives features visionary leaders from leading startups across the globe including Marc Jones CTO Shift Technology, Mike Murchison CEO and Co-founder Ada, and Sergio Passos CTO Blip. Best practices for building and monetizing your AI applications (Nov 21, 1.45-2.30pm PST). Reason to watch: This session will offer best practices and hands-on guidance to help maximize your AI product’s success, including product strategy, considerations for tech stack, GTM and even pricing. It features Dave Uppal, VP of ecosystem at Moveworks, and Alois Reitbauer, Chief Technology Strategist at Dynatrace. Disrupt and grow with Azure AI (On Demand). Reason to watch: If you are new to Azure, watch this on-demand session to learn about the full stack of Azure services that help you build, run, and scale your GenAI apps. Anand Kulkarni, CEO Crowdbotics will talk about their AI-powered app development platform built on Azure. Azure OpenAI for Startups and Digital-First Companies (On Demand). Reason to watch: While there is a ton of content on Azure OpenAI, this one specifically talks about challenges facing startups and at-scale cloud-first companies and how Azure OpenAI can help accelerate innovation. Mike Murchison, CEO Ada will discuss how Ada’s AI-powered customer service automation platform built on Azure OpenAI delivers streamlined and differentiated customer service experience to enterprises. These are just a few sessions featuring thought leaders from Microsoft and the startup industry. If you are a developer, there is a lot of content across the Azure AI, application platform, database, developer services, and infrastructure stack you can put on your watch list based on the models, use cases, and tools you use. I highly recommend checking out the session catalog to discover sessions that are most relevant to you. Popular AI toolchain solutions such as Arize, LlamaIndex, Pinecone, Weights & Biases, and Hugging Face are also featured in the content. Thousands of startups and at-scale software development companies are innovating with Microsoft. D-ID, for example, provides a Natural User Interface (NUI)-based immersive content platform for businesses specializing in customer experience, marketing, and sales. Enveda, a biotechnology company, uses AI-powered tools to identify and characterize a wide range of molecules produced by living organisms—the vast majority of which have never been explored by science—creating a database of chemical biodiversity. Cribl, the Data Engine for IT and Security, partners with Microsoft to make its data management capabilities available to enterprises to help improve security posture and enhance visibility. This is truly the era of AI and cloud-first companies are at the forefront of this wave. Join us at Microsoft Ignite 2024 and let’s build the future together! Btw, if you are looking to quickly get started with building apps on Azure for common AI use cases in as little as 5 mins, I highly recommend checking out the AI App Template Gallery. Resources: Microsoft Azure Microsoft for Startups Founders Hub Digital Natives on Azure Build AI applications with the new AI App Template Gallery Try Azure for free
