Unleashing the Generative AI Revolution in Your SME Manufacturing Business

For many small and medium-sized enterprises (SMEs) in manufacturing, generative AI (Gen AI) might seem like a futuristic technology reserved for industry giants. While headlines showcase big tech companies deploying Gen AI for groundbreaking applications, the reality is, this transformative technology holds immense potential for SMEs too.

This guidebook aims to demystify Gen AI for SME manufacturers. We’ll explore what it is, how it works, and its applications across industries, with a specific focus on manufacturing use cases that can significantly benefit your business. We’ll then outline a practical roadmap for Gen AI adoption, along with considerations for navigating cultural shifts and potential challenges. Finally, we’ll provide a clear path for how IT services companies like [Your Company Name] can be your trusted partner in harnessing the power of Gen AI.

What is Generative AI?

At its core, Gen AI refers to a class of artificial intelligence models capable of generating entirely new content, be it text, images, audio, video, or even code. Unlike traditional machine learning models trained for specific tasks like classification or prediction, Gen AI models can create novel outputs, mimicking human creativity in many ways. 

Imagine an AI system that can: 

  • Generate human-quality text descriptions for your products on your website. 
  • Create realistic prototypes and product renderings based on your design specifications. 
  • Develop personalized marketing materials tailored to each customer segment. 
  • Analyze sensor data from your machines to predict potential failures and optimize maintenance schedules. 

These are just a few examples of Gen AI’s capabilities. As the technology matures, its applications are rapidly expanding. 

How Does Generative AI Work? 

Most Gen AI models today leverage deep learning techniques trained on massive datasets. Language models like GPT-3, for instance, ingest vast amounts of text data (books, articles, code) to understand patterns in human language. Image generators like DALL-E 2 are trained on millions of captioned images, learning the relationships between objects, scenes, and text descriptions. 

These models utilize complex neural networks with millions or billions of parameters. When prompted to generate an output, the model attempts to create something new that aligns with the patterns it learned from the training data. 

For example, a language model might break down a prompt for a product description into individual words, analyze their relationships, and then generate a coherent description sentence by sentence. Similarly, an image generator would translate a text prompt describing a product (e.g., “sleek, silver sports car”) into a corresponding image. 

The field of Gen AI is constantly evolving. Advanced techniques like reinforcement learning, retrieval augmentation, and iterative refinement are pushing the boundaries of what’s possible. While current models have limitations in consistency and factual accuracy, the outputs are often impressive, offering immense value for businesses looking to automate content creation and augment human capabilities. 

Generative AI Across Industries: A Glimpse into the Potential

Gen AI is making waves across various sectors, driving innovation and efficiency. Here are some examples showcasing its versatility: 

  • Healthcare: AI assistants can draft diagnostic reports, analyze medical images with higher accuracy, and even generate synthetic data for training other medical AI models. 
  • E-commerce: Personalized product recommendations, automated marketing copywriting, and dynamic pricing strategies are just a few ways Gen AI is transforming online retail. 
  • Media and Entertainment: From generating scripts and storyboards to creating personalized content like children’s stories, Gen AI is accelerating content creation and audience engagement. 
  • Architecture: AI-powered tools generate 3D models, floor plans, and photorealistic renderings based on design specifications, speeding up the design process. 
  • Software Development: AI coding assistants can write code snippets or even complete applications based on natural language instructions, significantly boosting developer productivity. 

These are just a few examples, and the possibilities are constantly expanding. As Gen AI continues to evolve, we can expect even more transformative applications across diverse industries.

Generative AI for SME Manufacturers: A Game Changer 

Now, let’s delve into the exciting world of Gen AI for SME manufacturers. Here’s how this technology can revolutionize your business: 

  • Product Design and Development: Utilize generative design tools to explore countless computer-aided design (CAD) concepts based on your desired criteria. Imagine AI generating photorealistic renderings of your product variations, allowing stakeholders to visualize and provide feedback before committing to expensive prototypes. Additionally, Gen AI can create synthetic training data for custom computer vision models used in quality control inspections. 
  • Manufacturing Operations: Streamline operations with AI assistants that automate drafting work instructions, technical documentation, and training materials. Generate detailed reports on machine health, production metrics, and labor utilization, enabling data-driven decision-making. Expedite root cause analysis after product defects by having AI analyze sensor data and maintenance logs to pinpoint potential issues. 
  • Supply Chain Management: Leverage natural language processing (NLP) capabilities of Gen AI to parse through supplier contracts, shipping documents, and procurement data, streamlining communication and identifying potential bottlenecks. Generate forecasts for raw material procurement based on manufacturing plans and inventory data. Utilize generative 3D modeling to optimize warehouse layouts, staging areas, and distribution routes for enhanced efficiency. 
  • Sales, Marketing, and Customer Experience: Gen AI can automate the creation of engaging marketing content tailored to specific customer segments. Imagine generating dynamic product descriptions, personalized email campaigns, and targeted social media ads, all leveraging AI. Create photorealistic product configurators that allow customers to visualize customized product options. Develop interactive virtual showrooms and training demos using Gen AI-powered video and immersive environments, enhancing the customer experience. 

Across these use cases, Gen AI acts as a force multiplier, amplifying human skills and capabilities. It automates repetitive tasks, unlocks new digital content creation possibilities, and fosters data-driven decision-making, ultimately leading to substantial gains in: 

  • Productivity: By automating tasks and generating content, Gen AI frees up human resources for higher-value activities. 
  • Quality: AI-powered design tools and quality control systems can significantly improve product quality and consistency. 
  • Efficiency: Streamlined operations, optimized workflows, and data-driven decision-making lead to greater efficiency across the manufacturing value chain. 
  • Innovation: Gen AI can open doors to entirely new design concepts and product possibilities that might not have been considered before. 
  • Competitiveness: By leveraging the power of Gen AI, SME manufacturers can compete more effectively in a global marketplace.

A Roadmap for SME Manufacturers: Embracing the Generative AI Future 

The potential of Gen AI for SME manufacturers is undeniable. However, navigating adoption requires a well-defined roadmap and a clear understanding of the challenges involved. Here’s a practical 2-3 year plan to get you started: 

Year 1: Education, Experimentation, and Use Case Inventory 

  1. Upskilling Your Team: Invest in training programs, workshops, and online courses to educate your workforce on Gen AI fundamentals. 
  2. Experimentation with Available Tools: Utilize readily available Gen AI tools and platforms to experiment in low-risk areas like content creation for internal documents or marketing materials. 
  3. Identifying Use Cases: Conduct brainstorming sessions across departments to identify high-impact use cases for Gen AI that align with your strategic goals and workforce capabilities. Prioritize use cases that can deliver quick wins and a strong return on investment (ROI). 
  4. Developing an Ethical AI Framework: Establish a robust ethical AI framework that addresses potential biases in AI outputs, data privacy considerations, and responsible use of Gen AI technology. 
  5. Partnering with an IT Services Company: Consider collaborating with an IT services company like [Your Company Name] with expertise in Gen AI implementation. We can help you navigate technical complexities, assess risks, and develop a customized adoption strategy. 

Year 2: Pilot Implementations and Building Expertise 

  1. Pilot Programs: Roll out pilot programs for your most promising Gen AI use cases. This allows you to test the technology in a controlled environment, refine your approach, and identify any challenges before full-scale implementation. 
  2. Establishing Clear Processes: Develop clear processes to ensure AI outputs meet quality, accuracy, and compliance standards. This might involve implementing data validation procedures and human oversight mechanisms. 
  3. Refining Implementations: Based on learnings from the pilot programs, refine your Gen AI implementations to optimize performance and address any issues encountered. 
  4. Custom Model Exploration: Explore the possibility of developing custom Gen AI models tailored to your specific needs and data sets. Partnering with an IT services company can be invaluable in this stage. 
  5. Integration and User Adoption: Integrate Gen AI into core workflows across your organization to ensure broad user adoption and maximize the technology’s impact. Invest in training programs to help your workforce understand how to effectively use and collaborate with Gen AI tools. 

Year 3: Scaling Up and Embracing Transformation 

  1. Scaling Proven Use Cases: Once you have successfully piloted and refined your Gen AI implementations, scale them up across the entire organization. This allows you to reap the full benefits of the technology. 
  2. Building an Advanced AI/Data Science Team: Consider establishing a dedicated AI/data science team to specialize in developing and managing custom Gen AI models for your specific needs. Partnering with an IT services company can help bridge the skills gap if building an in-house team is not feasible. 
  3. Transformative Opportunities: Explore how Gen AI can drive broader digital transformation initiatives within your manufacturing business. This could involve AI-powered predictive maintenance systems, intelligent automation of tasks on the shop floor, or even developing entirely new AI-enabled products and services. 
  4. Industry Collaboration: Partner with other companies or research institutions to co-create industry-specific Gen AI solutions that address common challenges and unlock new market opportunities. 
  5. Staying Ahead of the Curve: The field of Gen AI is constantly evolving. Stay informed about the latest advancements by attending industry conferences, webinars, and subscribing to relevant publications. Partnering with an IT services company like [Your Company Name] allows you to leverage our expertise in keeping track of cutting-edge developments and ensuring your Gen AI strategy remains future-proof.

Cultural Considerations: Addressing the Human Side of Change 

While the roadmap above outlines the technical aspects of Gen AI adoption, navigating the human side of change is equally important. Here are some key considerations: 

  • Employee Concerns: Address employee anxieties about AI replacing their jobs. Highlight how Gen AI is designed to augment human capabilities, not replace them. Reskilling and upskilling programs are crucial to ensure your workforce is prepared to work effectively alongside AI tools. 
  • Reskilling Needs: Identify the new skills your workforce will need to thrive in an AI-powered environment. Invest in training programs that equip them with the necessary skills to collaborate with Gen AI and interpret its outputs effectively. 
  • Process Redesign: Integrating Gen AI often necessitates retooling existing workflows and developing new processes. Ensure clear communication and involve your workforce in the process redesign to minimize disruption and encourage buy-in. 
  • Leadership Commitment: Successful Gen AI adoption requires sustained leadership commitment. Leaders must champion the technology, communicate its benefits clearly, and empower teams to experiment and innovate.
  • Trust and Transparency: Building trust in Gen AI outputs is paramount. Implement clear processes for data validation, human oversight, and error correction. Regular communication and transparency about how Gen AI is used within your organization will foster trust and confidence among employees and customers alike. 

 

Partnering for Success: How LogicLoom Can Help You Embrace Generative AI 

The journey towards a generative AI-powered future can seem daunting, especially for SME manufacturers. But you don’t have to go it alone. Here’s how LogicLoom can be your trusted partner in navigating Gen AI adoption: 

  • Deep Industry Expertise: We have extensive experience working with SME manufacturers across various industries. We understand your unique challenges and opportunities, and can tailor our Gen AI solutions to your specific needs. 
  • Proven Track Record: We have a successful track record of helping businesses implement Gen AI technologies and achieve significant results. We can share case studies and testimonials from similar SME manufacturers who have benefited from our expertise. 
  • End-to-End Support: We offer a comprehensive range of services, from initial strategic consulting and roadmap development to pilot program execution, custom model development, and ongoing support. 
  • Technology Agnostic Approach: We are not wedded to any specific Gen AI platform or technology. We will work with you to identify the best-fit solutions based on your unique requirements and budget. 
  • Focus on ROI: We understand the importance of measurable results. We will work closely with you to define success metrics and ensure your Gen AI investments deliver a strong return on investment. 

By partnering with LogicLoom, you gain a dedicated team of Gen AI specialists who can guide you through every step of the adoption process. We will help you develop a comprehensive strategy, address potential challenges, and ensure your Gen AI initiatives deliver real-world value for your SME manufacturing business.

Conclusion: The Generative AI Opportunity Awaits

The time for SME manufacturers to embrace Gen AI is now. This transformative technology has the potential to revolutionize your operations, unlock new possibilities, and propel your business to new heights of success. Don’t be discouraged by the hype; focus on taking concrete steps towards a generative AI future. 

Start by educating yourself and your team, identify high-impact use cases, and develop a clear roadmap for adoption. Partner with a trusted IT services company like LogicLoom to leverage our expertise and accelerate your Gen AI journey. 

The future of manufacturing is generative, and by embracing this technology today, you can ensure your SME remains competitive and thrives in the years to come. 

Recommended reads:

  1. Unleashing the Power of Generative AI for Small Businesses
  2. Productive Ways Small Businesses Are Using Generative AI

Team Augmentation: Unlocking Specialized Talent for Your Projects

Imagine you run a small software company, and your team is working on an exciting new project. But suddenly, you realize you lack the specific skills needed to complete it successfully. Hiring full-time employees for this short-term challenge is not practical, and that’s where Team Augmentation comes to the rescue.

Team Augmentation is like having a superhero team at your disposal. Instead of hiring new full-time employees, you can temporarily bring in skilled professionals from outside organizations. These experts join your existing team to work hand in hand on your project, bringing their specialized skills and knowledge.

The best part? You save time and resources by avoiding long-term hiring and training. Team Augmentation allows you to complete projects faster, with top-notch quality, and without breaking the bank.

Team Augmentation is a strategic approach where organizations hire external IT professionals on a temporary basis to supplement their existing workforce for specific projects or tasks. It offers flexibility, cost-effectiveness, and faster project delivery, allowing businesses to optimize their workforce and achieve successful project outcomes.

Reasons to Consider Team Augmentation:
  1. Access to Specialized Skills: IT projects often require specific technical skills and expertise that may not be available in-house. Team Augmentation allows organizations to tap into a broader talent pool and bring in professionals with specialized knowledge to meet project requirements.
  2. Flexibility and Scalability: Team Augmentation offers the flexibility to quickly scale up or down the workforce as project demands fluctuate. It allows organizations to adapt to changing needs without the long-term commitment of hiring full-time employees.
  3. Cost Efficiency: Hiring and maintaining a full-time IT team can be expensive, especially when project requirements are temporary or uncertain. Team Augmentation eliminates the costs associated with recruitment, training, benefits, and overhead expenses, resulting in cost savings for businesses.
  4. Time Efficiency: Traditional hiring processes can be time-consuming, leading to delays in project execution. Team Augmentation enables organizations to swiftly onboard skilled professionals and kickstart projects promptly, saving valuable time and ensuring timely project delivery.
  5. Knowledge Transfer and Collaboration: Augmented IT professionals bring fresh perspectives, industry best practices, and expertise from their previous experiences. They can collaborate with the in-house team, fostering knowledge transfer and contributing to innovation and improved project outcomes.
  6. Mitigating Skill Gaps: Organizations may encounter skill gaps or shortages within their existing IT teams. Team Augmentation allows them to address these gaps by bringing in professionals with the required skills, bridging the expertise divide and ensuring the successful completion of projects.
  7. Reduced Risk: Team Augmentation mitigates the risk associated with long-term hiring commitments. Businesses have the flexibility to evaluate the performance and compatibility of augmented professionals before making any long-term commitments or hiring decisions.
Understand How Team Augmentation Works:
Case Study: ABC Corporation

ABC Corporation is a growing technology company that specializes in software development. They have recently secured a large contract to develop a complex web application for a client. However, their in-house development team lacks the specific skills required to complete the project within the given timeline.
To address this skill gap, ABC Corporation decides to leverage Team Augmentation services. They partner with a reputable Team Augmentation agency to source experienced developers with expertise in the required technologies, such as Angular, Node.js, and MongoDB.

The process unfolds as follows:

  1. Identifying Project Requirements: ABC Corporation clearly defines the project requirements, including the necessary technical skills, expertise, and project duration.
  2. Engaging the Team Augmentation Agency: ABC Corporation collaborates with the Team Augmentation agency, providing them with the project details and desired skill sets.
  3. Candidate Selection and Screening: Team augmentation agency carefully selects and screens candidates from their talent pool based on the project requirements.
  4. Integration and Onboarding: Once suitable candidates are identified, ABC Corporation interviews and assesses them to ensure they align with the project’s goals and values. Once selected, the augmented professionals are integrated into the existing development team.
  5. Collaboration and Project Execution: The augmented professionals work closely with the in-house team, collaborating on the development tasks, sharing knowledge, and leveraging their expertise to accelerate project progress.
  6. Ongoing Support and Communication: ABC Corporation maintains regular communication with the Team Augmentation agency to address any concerns, provide feedback, and ensure seamless collaboration throughout the project.

In this case study, Team Augmentation allowed ABC Corporation to quickly bridge the skill gap in their development team and meet the specific requirements of the client’s project. By augmenting their workforce with experienced professionals, they were able to leverage specialized skills, accelerate development, and ensure timely project delivery.

The Team Augmentation Process Typically Involves Several Key Steps:
  1. Identify Project Requirements: Determine the specific skills, expertise, and experience needed for the project or tasks at hand.
  2. Engage with Team Augmentation Provider: Research and select a reputable Team Augmentation provider that aligns with your requirements.
  3. Define Job Roles and Criteria: Collaborate with the Team Augmentation provider to clearly define job roles, responsibilities, and criteria for selecting suitable candidates.
  4. Candidate Sourcing and Screening: The Team Augmentation provider leverages their talent pool, networks, and recruitment strategies to source potential candidates.
  5. Candidate Selection: Based on the screening process, the Team Augmentation provider presents a shortlist of candidates who match the defined criteria.
  6. Interview and Assessment: Conduct interviews and assessments to evaluate the shortlisted candidates.
  7. Onboarding and Integration: Once the selected candidates are finalized, they go through the onboarding process.
  8. Collaboration and Project Execution: The augmented team integrates with the existing team and start working on the assigned tasks or projects.
  9. Ongoing Support and Performance Management: Maintain regular communication with the augmented team, providing feedback and addressing concerns.
  10.   Project Completion and Transition: Once the project or tasks are completed, the Team Augmentation engagement comes to an end. Ensure a smooth transition, including knowledge transfer and documentation.
  11.   Evaluation and Feedback: Conduct a review of the Team Augmentation engagement, gathering feedback from the client organization and the augmented staff members.

It’s important to note that the specific steps and details of the Team augmentation process may vary depending on the organization, project requirements, and the Team augmentation provider. Effective communication and collaboration between the client organization and the Team Augmentation provider are key to a successful process.

Maximize project potential with Team Augmentation: access diverse skilled professionals to bridge gaps and achieve unparalleled success through seamless collaboration.

Cloud Cost Optimization: Unlock Efficiency for Business Success

The world of cloud computing is rapidly evolving, and optimizing costs has become a critical focus for businesses seeking to maximize their return on investment. As organizations increasingly migrate to the cloud, understanding and implementing effective cost optimization techniques are paramount.

This comprehensive blog post delves into various strategies and techniques for cloud cost optimization, empowering businesses to achieve greater cost efficiency while aligning with their overall business objectives.

Techniques for Optimizing Cloud Costs:
  1. Resource Monitoring: Gain granular visibility into cloud resource usage and performance through advanced monitoring tools and services. This allows organizations to identify areas of inefficiency and cost waste, empowering them to take targeted cost optimization actions. For example, by identifying idle instances or underutilized storage volumes, businesses can make informed decisions on resource consolidation or termination.
  2. Rightsizing: Analyse and adjust resource allocation to match actual workload requirements. Rightsizing involves finding the optimal balance between performance and cost by identifying overprovisioned resources and downsizing them to eliminate wasted capacity. Conversely, it also involves identifying resource-constrained instances and scaling them up to avoid performance bottlenecks.
  3. Cost Allocation and Accountability: Implement robust mechanisms for tracking and allocating costs to individual projects, departments, or teams. By assigning costs to specific stakeholders, businesses create transparency and promote cost-conscious behaviour. This accountability drives efficient resource utilization and encourages teams to optimize their cloud spend. Tools like cost tagging and showback reports help identify cost centres and enable accurate cost allocation.
Leveraging Cloud-Native Tools and Services:
  1. Automation: Leverage cloud-native automation tools and services to optimize cost efficiency. For example, auto-scaling enables automatic adjustment of resources based on workload demands, ensuring that businesses only pay for the resources they need. Additionally, serverless computing platforms, such as AWS Lambda or Azure Functions, allow organizations to execute code without provisioning or managing servers, resulting in significant cost savings by paying only for actual usage.
  2. Containerization: Implement containerization technologies like Docker and Kubernetes to optimize resource utilization and enable efficient scaling. By encapsulating applications and their dependencies into containers, businesses achieve higher density, reducing the number of resources required. Container orchestration platforms further optimize resource allocation by dynamically scaling containers based on demand, resulting in improved cost efficiency.
Strategies for Forecasting and Budgeting Cloud Costs:
  1. Usage Analysis and Trending: Analyse historical usage data and trends to forecast future resource requirements and anticipate cost fluctuations. By understanding usage patterns, organizations can make informed decisions about scaling resources and avoid unexpected cost escalations. Leveraging advanced analytics tools and machine learning algorithms can provide more accurate predictions for resource consumption.
  2. Budgeting and Cost Controls: Establish cloud cost budgets and implement cost control mechanisms to prevent unforeseen expenditure. Cloud providers offer features like budget alerts and spending caps, allowing businesses to set thresholds and receive notifications when costs approach or exceed predefined limits. This empowers organizations to take proactive measures and optimize resource usage to stay within budgetary constraints.
  3. Reserved Instances and Savings Plans: Take advantage of cloud providers’ offerings, such as reserved instances or savings plans, to secure discounted pricing for long-term resource commitments. By committing to reserved instances or savings plans, businesses can significantly reduce their cloud costs, especially for stable workloads. This strategy enables better predictability and long-term cost optimization.
Case Studies:
  1. Netflix: Netflix, the popular streaming platform, is known for its expertise in cloud cost optimization. They have implemented several strategies to optimize their cloud costs and achieve significant savings. By leveraging cloud-native tools and services, Netflix dynamically scales their infrastructure based on demand, ensuring efficient resource utilization.
    One of their successful cost optimization initiatives is the use of spot instances on AWS. These instances are acquired at significantly lower prices but with the risk of termination. Netflix’s architecture is designed to handle instance failures gracefully, allowing them to take advantage of spot instances without compromising service availability. By leveraging spot instances, they saved up to 90% on their infrastructure costs compared to on-demand instances.
  2. Airbnb: Airbnb, the online marketplace for vacation rentals, leverages cloud cost optimization techniques to manage their cloud infrastructure efficiently. They prioritize resource efficiency and cost-consciousness while ensuring scalability and reliability.
    Airbnb uses a combination of auto-scaling, reserved instances, and spot instances to optimize their cloud costs. By dynamically adjusting their resource allocation based on demand fluctuations, they optimize cost efficiency without sacrificing performance. Additionally, they continuously monitor their infrastructure to identify any areas of inefficiency and take necessary actions to optimize costs. By using a combination of auto-scaling, reserved instances, and spot instances, they achieved a 40% reduction in their infrastructure costs.
  3. Lyft: Lyft, the ride-sharing company, operates at a massive scale, relying on the cloud to power their platform. They have adopted various cost optimization strategies to optimize their cloud spending and improve their bottom line.
    One notable approach Lyft implemented is rightsizing their EC2 instances. Through continuous monitoring and analysis of their workloads, they identified instances with excessive capacity and downsized them to match the actual workload requirements. By downsizing oversized instances, they reduced costs by 50% while maintaining optimal performance and availability. This rightsizing initiative resulted in substantial cost savings for Lyft.
  4. Pinterest: Pinterest, the popular visual discovery platform, focuses on cost optimization to ensure sustainable growth. They have implemented various techniques to optimize their cloud costs while maintaining a high-quality user experience.
    Pinterest employs automation and infrastructure scaling based on demand patterns to optimize resource allocation and minimize costs. By leveraging AWS Lambda for serverless computing, they achieved a 70% reduction in their compute costs. This serverless approach enabled them to pay only for actual resource consumption during function execution, resulting in substantial cost savings.

Cloud cost optimization is an ongoing journey that requires proactive strategies, advanced tools, and the right expertise.

By implementing resource monitoring, rightsizing, cost allocation, and leveraging cloud-native services, businesses can significantly reduce their cloud costs while maintaining optimal performance.

Forecasting, budgeting, and leveraging reserved instances further optimize cost efficiency. With industry examples, case studies, and guidance from thought leaders, organizations can unlock the full potential of cloud cost optimization, redirecting savings towards innovation, growth, and achieving strategic goals.

Remember, cloud cost optimization is a continuous practice that evolves alongside your cloud environment and business needs. Embrace these strategies, stay vigilant, and leverage the wealth of resources available to ensure long-term cost efficiency and success in the cloud.

References: To further deepen your understanding of cloud cost optimization, we recommend exploring the following resources:
  1. “Cloud Financial Management Guide” by AWS (Amazon Web Services)
  2. “Optimizing Your Cloud Costs” by GCP (Google Cloud Platform)
  3. “Cloud Cost Optimization: Strategies for Success” by FinOps Foundation
  4. “Cloud Cost Optimization: Strategies for Success” by Jeff Collins, Cloud Architecture Manager at Google Cloud
  5. “Cloud Cost Management and Optimization” by Corey Sanders, Corporate Vice President at Microsoft Azure
  6. “Realizing the Promise of Cloud Cost Optimization” by J.R. Storment, Co-Founder of Cloudability
  7. “Cloud Cost Optimization: Best Practices and Case Studies” by James Beswick, Senior Developer Advocate at AWS