Courses

Dive into the world of Kubernetes Operators and the Operator Framework in this comprehensive 1 hour 50 minute tutorial presented by Matt Dorn and Michael Hrivnak from Red Hat. Gain a solid understanding of these powerful tools for automating and managing complex applications on Kubernetes clusters. Learn how to leverage Operators to streamline deployment, scaling, and maintenance of containerized applications, while exploring the Operator Framework's capabilities for developing and managing custom Operators efficiently.

Explore the fundamentals of the Operator SDK in this 48-minute tutorial from Rawkode Academy. Learn about the Operator Framework, an open-source toolkit for managing Kubernetes native applications, and discover how the Operator SDK simplifies the process of building, testing, and packaging Operators. Dive into creating a new operator, adding custom resource definitions, implementing business logic, and deploying operators on a Kubernetes cluster. Gain insights into high-level APIs, code generation tools, and extensions for common Operator use cases. Follow along as the instructor demonstrates practical examples and shares valuable resources for further learning.

Learn essential programming concepts including bitwise operators, for loops, operator precedence, associativity, and variable scoping in this comprehensive video tutorial. Explore practical applications through LeetCode problem-solving sessions. Gain hands-on experience with bitwise AND, OR, NOT, and XOR operations, as well as left and right shift operators. Master for loop syntax and usage, tackling problems like calculating sums, generating Fibonacci sequences, and identifying prime numbers. Understand variable scope intricacies and operator precedence rules to write more efficient code. Apply newly acquired knowledge to solve two LeetCode challenges, reinforcing learning through real-world coding scenarios.

Explore the intersection of machine learning operations (MLOps) and software operators in this 14-minute conference talk from Operator Day Europe 2023. Discover how MLOps, a set of practices for operating ML workloads, addresses challenges in machine learning deployment and management. Learn about the logical connection between software operators and implementing MLOps best practices. Gain insights into how these operators can improve the performance of ML workloads and tackle issues such as infrastructure costs. Delve into the world of Charmed Operators and their role in enhancing MLOps practices, with links provided for further exploration of Juju and the Charmed Operator ecosystem.

Explore a comprehensive session from Operator Day Europe 2023 focusing on data management in Kubernetes using MySQL Charmed Operators. Delve into the essential properties of robust database operators on Kubernetes, demonstrated through practical examples with MySQL. Learn about implementing high availability through MySQL group replication and MySQL Router, enhancing security with encryption in transit via TLS operator integration, and mastering backup and restore processes using Percona's XtraBackup tool. Gain valuable insights into Charmed Operators, including an introduction to Juju, accessing operator collections on Charmhub.io, understanding the Juju Charmed Operator Lifecycle Manager, and utilizing the Juju Charmed Operator SDK. Discover how to leverage these tools and technologies to optimize your Kubernetes data management strategies.

Explore exponential expression rates for neural operator approximation to the solution operator of certain Forward-Backward Stochastic Differential Equations (FBSDEs) in this 25-minute conference talk by Anastasis Kratsios from McMaster University. Delivered at the Eastern Conference on Mathematical Finance, hosted by the Fields Institute on September 26th, 2024, delve into advanced mathematical concepts at the intersection of neural networks, stochastic processes, and financial modeling. Gain insights into cutting-edge research that bridges machine learning techniques with complex mathematical finance problems, potentially revolutionizing approaches to solving FBSDEs in various applications.

In this course, you will learn about Chemical Kinetics for JEE and NEET. You will learn about rate of reaction, factors affecting rate of reaction, Rate Law and order of reaction, Initial Rate Method to determine order of reaction, Rate Law, zero order kinetics, half life, first, second, third and nth order kinetics, molecularity of reaction, pseudo order reaction, Arrhenius Reaction, complex reaction, parallel first order reaction kinetics, and much more.

This course would highlight the concepts and applications of widely used experimental technique of X-ray crystallography. The could would take the students through the lane of crystallographic symmetry to the structure determination and refinement of crystal structures using x-ray diffraction. Any experimental organic or inorganic chemist would be benefited from this course.INTENDED AUDIENCE :PhD students and 2nd year M.Sc studentsPREREQUISITES :Basic knowledge about molecular symmetryINDUSTRY SUPPORT :Pharmaceutical industry

Chemical biology is a burgeoning field that has rapidly risen to prominence. This surge of interest has been fuelled by chemical biology’s applicability to understanding critical processes in live cells or model organisms in real time. This success has arisen because chemical biology straddles a nexus between chemistry, biology, and physics. Thus, chemical biology can harness rapid chemistry to observe or perturb biological processes, that are in turn reported using physical assays, all in an otherwise unperturbed living entity. Although its boundaries are endless, the multidisciplinary nature of chemical biology can make the field seem daunting; we beg to differ! Here, we deconstruct chemical biology into its core components, and repackage the material. In the process we build up for each student a practical and theoretical knowledge bank that will set these students on their way to understanding and designing their own chemical biology experiments. We will discuss fluorescence as a general language used to read out biological phenomena as diverse as protein localization, membrane tension, surface phenomena, and enzyme activity. We will proceed to discuss protein labeling strategies and fusion protein design. Then we will discuss larger and larger scale chemical biology mechanism and screening efforts. Highlights include a large amount of new data, tailored in the lab videos, and a large number of skilled presenters.

Learn about the structure, function, and mechanisms of chemical synapses in this 12-minute educational video from NPTEL-NOC IITM. Explore how neurons communicate through chemical messengers at these specialized junctions, the process of neurotransmitter release and reception, and the importance of chemical synapses in neural signaling and information processing in the nervous system.

Explore the new Point Operators (POPs) family in TouchDesigner through this comprehensive 23-minute video tutorial. Dive into the core concepts of this GPU-based operator family, designed for creating and modifying 3D data. Learn about different types of 3D data POPs can contain, supported primitive types, and their applications in 3D rendering and instancing. Discover the performance benefits POPs offer compared to the SOP family. Gain insights into POP attributes, popViewer, point, vertex, and primitive lists, as well as POP generators and filters. Note that POPs are currently in alpha stage, so information may change before the stable release. Follow along with timestamps for easy navigation through specific topics, from basic concepts to real-time performance considerations.

In this course, we will now find out the reason for changes in matters (Chemical Principles II). The earlier course, Chemical Principles I, deals with the matter itself, and the understanding of it comes from quantum mechanics. However, for the change of matter, thermodynamics says the final word. The most critical quantity in thermodynamics is the entropy, and this course is all about understanding entropy and related thermodynamic potentials. Although classical thermodynamics was developed from observations and heuristic understanding, statistical thermodynamics provides a microscopic basis of it. In this course, a holistic approach covering three different approaches (classical, statistical, and postulate-based) of thermodynamics will be covered. The objective of this course is demystification the enigma of entropy.

As chemical process technology becomes more complex, chemical engineers will need a more detailed and fundamental understanding of safety. The course focuses on understanding the important technical fundamentals of chemical process safety. The emphasis on the fundamentals will help the student to understand the concepts and apply them accordingly. This application requires a significant quantity of fundamental knowledge and technology. INTENDED AUDIENCE : All Chemical Engineering studentsPREREQUISITES : Chemical Engineering Thermodynamics, Chemical Technology INDUSTRY SUPPORT : Useful for all process industries, refineries, fertilizer plants, petrochemical plants specially for managers and decision makers

Welcome to Chemical Safety Technology, an essential online course designed to transform your approach to process safety and risk management in the chemical industry. In today’s fast-paced industrial world, safety is far more than a regulatory requirement—it is a cornerstone of sustainable operations, a safeguard for human life, and a critical component of business resilience. This course is meticulously crafted to equip professionals, researchers, and students with the comprehensive skills necessary to identify, assess, and mitigate risks associated with chemical processes.The significance of mastering chemical safety cannot be overstated. With rapid industrialization and the increasing complexity of chemical processes, the potential for catastrophic accidents is a pressing concern. Whether you are working on the frontlines of chemical manufacturing or engaged in research and development, understanding the principles of process safety can make the difference between disaster and operational excellence. This course addresses that need by offering a robust curriculum that spans a wide array of safety topics, ensuring that you are well-prepared to handle both everyday challenges and unexpected emergencies.Our curriculum is structured into ten comprehensive chapters that cover the entire spectrum of chemical safety. From the foundational principles of process safety and the analysis of accident statistics to the intricacies of chemical hazards, risk assessment, accident investigation, and emergency management, every chapter is designed to build on the last. You will learn how to identify hazards, evaluate risks, and implement effective control measures that safeguard both personnel and assets. Although each chapter is a deep dive into its respective topic, together they form a cohesive framework that provides a holistic understanding of chemical safety technology.At the heart of this course is our distinguished teaching team, comprising renowned experts Qiang Chen, Yi Liu, Ping Ping, Wenjuan Yan, and Dawei Li. With decades of combined academic and industry experience, they bring a wealth of practical insights and theoretical knowledge to the classroom. Their collaborative teaching approach ensures that you benefit from a rich learning experience that blends rigorous scientific principles with real-world applications. Through engaging lectures, detailed case studies, and interactive discussions, our instructors will guide you through complex concepts and empower you with the tools to apply them effectively in your professional life.Chemical Safety Technology is not just a course—it’s a journey toward creating a safer and more resilient chemical industry. As industries evolve and new technologies emerge, the need for advanced safety protocols becomes even more crucial. By enrolling in this course, you are taking a proactive step towards ensuring that your operations are not only compliant with current safety standards but are also ahead of the curve in risk management strategies.Join us today in redefining safety in the chemical industry. Enroll in Chemical Safety Technology and become part of a growing community dedicated to excellence in process safety. Welcome aboard, and take your first step towards a safer, more innovative future!

ABOUT THE COURSE: Organic chemical industry may be crudely grouped as natural and synthetic chemical industry. Natural product industries may include production of edible and essential oils, soaps and detergents, paints and varnishes, sugar and starch, pulp and paper, etc. while the synthetic chemical industries may include production of petrochemicals, polymers, etc. Thus this course would present manufacturing processes of various natural and synthetic organic chemicals along with required raw materials, process chemical reactions, process flow charts, major engineering problems and economics of each individual organic chemical. INTENDED AUDIENCE: UG Students of Chemical Engineering; Biotechnology; Food Technology ; Textile Engineering INDUSTRY SUPPORT: All chemical industries, fertilizer industries, pharmaceutical industries, food industries, textile industries, polymer industries, metallurgical industries

Core elements of Process Engineering Discipline What you'll learn: The Fundamental Elements of Chemical/Process EngineeringChemical Engineering DrawingsMixture Properties and Hydrocarbon Phase BehaviorBasic concepts behind Mass and Energy Balance Chemical Engineering Fundamentals course provided by Velocis Solutions aims to deliver the core elements of Chemical/Process Engineering by working on specific topics of:Introduction to Chemical/Process Engineering;Process Engineering Drawings;Mixture Properties;Material and Energy BalanceThis course provided by our professional development team directly fulfils the indicated topic. Here, you will have an imagination about the fundamental elements of Chemical/Process Engineering. What about taking more information about the responsibilities of Chemical Engineers, before going over the course?Chemical engineers translate processes developed in the lab into practical applications for the commercial production of products and then work to maintain and improve those processes. They rely on the main foundations of engineering: math, physics, and chemistry (though biology is playing an increasing role). The main role of chemical engineers is to design and troubleshoot processes for the production of chemicals, fuels, foods, pharmaceuticals, and biologicals, just to name a few. They are most often employed by large-scale manufacturing plants to maximize productivity and product quality while minimizing costs.Chemical engineers typically work in manufacturing plants, research laboratories, or pilot plant facilities. They work around large-scale production equipment that is housed both indoors and outdoors and are often required to wear personal protective equipment, such as hard hats, goggles, and steel-toe shoes. A typical workday for a chemical engineer working in a plant may involve traveling from one function to the next within a facility.

This course covers the developments in a number of intensified technologies, with particular emphasis on their application in chemical processes. The course is intended to be a useful resource for practising engineers and chemists alike who are interested in applying intensified reactor and/or separator systems in chemical industries. It will provide a basic knowledge of chemical engineering principles and process intensification for chemists and engineers who may be unfamiliar with these concepts. It will be a valuable tool for chemical engineers who wish to fully apply their background in reaction and separation engineering to the design and implementation of green processing technologies based on process intensification principles. Students on undergraduate and postgraduate degree programmes which cover topics on advanced reactor designs, process intensification, will gain a better understanding of the practical applications in different areas.INTENDED AUDIENCE : Chemical, mechanical Engg graduate/Post graduate/Research Scholar/ Scientist/Academician/Industrial R&DPREREQUISITES : BE/MSc in Chemical EngineeringINDUSTRY SUPPORT : Industrial Reseach and Development Section of Chemical and Mechanical Engineering

This course will deal with evaluation and application of the laws of thermodynamics with respect to physical and chemical processes.Real gas behavior, solution thermodynamics,phase and reaction equilibria will be discussed.It will lay foundation for other chemical engineering courses such as mass transfer,chemical reaction engineering etc.It will demonstrate the application of the fundamental concepts of thermodynamics to a wide variety of processes occuring in chemical Engineering.It will enable the students to develop skills necessary to make appropriate assumptions in specific Chemical Engineering problems.INTENDED AUDIENCE :B.Tech in Chemical EngineeringPREREQUISITES : Nil.INDUSTRY SUPPORT : Chemical process industries including IOCL,HPCL,BPCL,GAIL,ONGC,etc.

Explore a 26-minute lecture from the Fields Institute's Focus Program on Analytic Function Spaces and their Applications, delivered by Caleb Parks from the University of Arkansas. Delve into the intricacies of Volterra-type operators on Hardy spaces and their relationship with multiplication operators on analytic tent spaces. Gain insights into advanced mathematical concepts and their applications in functional analysis and complex analysis. Enhance your understanding of operator theory and its connections to analytic function spaces through this specialized presentation.

Explore the integration of Juju and Terraform for enhanced infrastructure provisioning and application lifecycle management in this 32-minute conference talk from Operator Day Europe 2023. Dive into the capabilities of Juju for reliable application operation and learn how it can work alongside existing enterprise infrastructure. Discover the versatility of Hashicorp Terraform and its extensive provider ecosystem. Examine the Juju Terraform provider and its potential to combine these powerful technologies. Gain insights into use cases and development roadmaps for the Juju Python library, Go client, and Terraform provider. Learn how to leverage these tools to streamline your cloud resource management and application deployment processes across various platforms and services.