From a presentation given at the Jupiter Branch of the Palm Beach County Library System on Wed, Jun 25, 6:30 pm:
Robotics Engineer, Pierre Baillargeon, will discuss 3D printing. Learn about this new innovative technology, how it works, what it looks like and what are some of the things you can create using a 3D printer. (60 min.)
3D printing involves converting a virtual 3D model into a physical object by laying down successive layers of material. It began in the 1980s and is now used for industrial prototyping, education, medicine, fashion, food and more. Various technologies are used including stereolithography (SLA), fused deposition modeling (FDM), selective laser sintering (SLS), and others. While it provides many benefits, 3D printing has limitations such as slow speeds and potential effects on certain jobs. The future may bring larger 3D printers that can build structures and even prepare meals.
3D printing, also known as additive manufacturing, involves building 3D objects from a digital file by laying down successive layers of material. There are several technologies used for 3D printing including stereolithography, selective laser sintering, multi-jet modeling, and inkjet 3D printing. 3D printing allows for rapid prototyping, reduces development costs, and increases customization. Applications of 3D printing include design prototyping, education, and healthcare.
Printing involves reproducing text and images. There are various printer types like dot matrix, inkjet, and laser. 3D printing creates physical objects by laying down successive layers of material from a 3D digital file. The first 3D printer was developed in 1984 and since then 3D printing technology has advanced, allowing for rapid prototyping in fields like industrial design, automotive, aviation, architecture, medicine, and more. 3D printing provides advantages like low waste and ability to produce complex shapes, though the process can be slow.
This is brief introduction about 3D printer.
I think 3D printer is 4th wave.
First wave: Neolithic revolution
2nd wave: industrial revolution
3rd wave: information age
4th wave: manufacture revolution by 3D printer
3D printing is a form of additive manufacturing that uses digital files and materials cartridges to quickly print 3D objects on a machine connected to a computer. Charles Hull developed the first 3D printing technique called stereolithography in 1984 and obtained a patent for it in 1986. Since then, different 3D printing technologies have been introduced that use various materials like plastics, metals, and ceramics in different printing processes. 3D printing offers benefits like customization, rapid prototyping, low production costs, and opportunities for employment and organ transplants but also has limitations and risks regarding intellectual property, security, size, and material restrictions.
3D printer Technology _ A complete presentationVijay Patil
3D printing is a process of making 3D objects from a digital file by laying down successive layers of material. The first 3D printer was created in 1984 by Charles Hull. Since then, 3D printing has advanced and become used in many industries like industrial design, automotive, aviation, architecture, food preparation, and medicine. There are different 3D printing methods like selective laser sintering, stereolithography, and fused deposition modeling. While 3D printing provides advantages like rapid prototyping, reduced waste, and ability to create complex shapes, it also faces challenges like slow speeds, weak components, and high costs of materials and printers. However, 3D printing is expected to become more commonplace in the future
From a presentation given at the Jupiter Branch of the Palm Beach County Library System on Wed, Jun 25, 6:30 pm:
Robotics Engineer, Pierre Baillargeon, will discuss 3D printing. Learn about this new innovative technology, how it works, what it looks like and what are some of the things you can create using a 3D printer. (60 min.)
3D printing involves converting a virtual 3D model into a physical object by laying down successive layers of material. It began in the 1980s and is now used for industrial prototyping, education, medicine, fashion, food and more. Various technologies are used including stereolithography (SLA), fused deposition modeling (FDM), selective laser sintering (SLS), and others. While it provides many benefits, 3D printing has limitations such as slow speeds and potential effects on certain jobs. The future may bring larger 3D printers that can build structures and even prepare meals.
3D printing, also known as additive manufacturing, involves building 3D objects from a digital file by laying down successive layers of material. There are several technologies used for 3D printing including stereolithography, selective laser sintering, multi-jet modeling, and inkjet 3D printing. 3D printing allows for rapid prototyping, reduces development costs, and increases customization. Applications of 3D printing include design prototyping, education, and healthcare.
Printing involves reproducing text and images. There are various printer types like dot matrix, inkjet, and laser. 3D printing creates physical objects by laying down successive layers of material from a 3D digital file. The first 3D printer was developed in 1984 and since then 3D printing technology has advanced, allowing for rapid prototyping in fields like industrial design, automotive, aviation, architecture, medicine, and more. 3D printing provides advantages like low waste and ability to produce complex shapes, though the process can be slow.
This is brief introduction about 3D printer.
I think 3D printer is 4th wave.
First wave: Neolithic revolution
2nd wave: industrial revolution
3rd wave: information age
4th wave: manufacture revolution by 3D printer
3D printing is a form of additive manufacturing that uses digital files and materials cartridges to quickly print 3D objects on a machine connected to a computer. Charles Hull developed the first 3D printing technique called stereolithography in 1984 and obtained a patent for it in 1986. Since then, different 3D printing technologies have been introduced that use various materials like plastics, metals, and ceramics in different printing processes. 3D printing offers benefits like customization, rapid prototyping, low production costs, and opportunities for employment and organ transplants but also has limitations and risks regarding intellectual property, security, size, and material restrictions.
3D printer Technology _ A complete presentationVijay Patil
3D printing is a process of making 3D objects from a digital file by laying down successive layers of material. The first 3D printer was created in 1984 by Charles Hull. Since then, 3D printing has advanced and become used in many industries like industrial design, automotive, aviation, architecture, food preparation, and medicine. There are different 3D printing methods like selective laser sintering, stereolithography, and fused deposition modeling. While 3D printing provides advantages like rapid prototyping, reduced waste, and ability to create complex shapes, it also faces challenges like slow speeds, weak components, and high costs of materials and printers. However, 3D printing is expected to become more commonplace in the future
Charles Hull created the first 3D printer in 1984, which he named stereolithography. The printer worked by selectively hardening layers of liquid photopolymer resin with ultraviolet light to build 3D objects layer by layer. Since then, other companies developed different 3D printing techniques like selective laser sintering and fused deposition modeling. 3D printing is now used across many industries to quickly prototype designs and produce custom parts and products.
3D printing is an additive manufacturing process where a three-dimensional object is created by laying down successive layers of material under computer control. It builds an object from a digital file describing its shape in thin cross-sections. The 3D printer reads this file and deposits layers of material one by one until the object is completed. Common materials used include plastics, metals, ceramics, and edible substances. 3D printing offers advantages over traditional manufacturing as it enables the creation of complex geometries and customized parts.
3D printer by Mandar Gadkari,3d printer, 3d printing, attractive ppt on 3d p...Mandar Gadkari
3D printing is an additive manufacturing process that creates 3D objects by laying down successive layers of material. It allows for rapid prototyping and complex shapes to be produced at low cost. The document discusses how 3D printers work by applying layers of powder and a binding agent, and then outlines applications in product design, medicine for printing body parts, and architecture for creating models. Advantages include low waste and cost, while disadvantages include the printers still being expensive and the process being slow. The future of 3D printing is discussed as the technology advances.
This document outlines a six-week industrial training report on AutoCAD. It discusses the history and latest version of AutoCAD, the AutoCAD interface and coordinate system, and lists common 2D and 3D commands. Benefits of AutoCAD include the ability to quickly create accurate designs and easily modify or transfer them, saving time over hand drafting. An example design of a vehicle side view is also mentioned.
Impressão 3D: conceitos, mercado e hardware livreCláudio Sampaio
O documento apresenta uma palestra sobre impressão 3D, abordando seu histórico desde os anos 1980, os conceitos e partes de uma impressora 3D, as etapas do processo de impressão, softwares utilizados e exemplos de aplicações como objetos domésticos, projetos mecânicos e eletrônicos, e até uso em projetos biomédicos.
Additive manufacturing, commonly referred to as 3d printing, is a manufacturing
technique that rises in the 1980’s mainly focused on engineering prototyping. Current
advances in the precision and cost of the techniques, as well as the widespread use of 3d
designing have increased 3d printing’s scope of use from high-end engineering prototypes
to a large variety of uses in manufacturing. 3d printing improve the processing time,
decrease waste, and increase the level of customization of certain products by eliminating
the need for the specialty tooling and dies that are traditionally used in manufacturing. In
addition, the ability to physically print difficult shapes based on a computer model has
given rise to new products that would otherwise be simply impossible to create. The
various fields have taken advantage of this technology by printing 3d objects.
Charles Hull invented 3D printing in 1984 after advancements in inkjet printing. 3D printing works by using CAD software to slice a virtual model into layers and depositing material layer by layer until the final model is complete. There are several types of 3D printing including stereolithography, selective laser melting, and fused deposition modeling. 3D printing offers advantages like less waste, cheap manufacturing, and quick production but also has disadvantages such as weaker parts, rougher surfaces, and potential for misuse.
3DPrinting Technologies
echnologiesthatbuild3Dobjectsbyaddinglayer-upon-layerofmaterial,whetherthematerialisplastic,metal,concreteoranycompositematerials. There are three types of Printer.
1.Stereo lithography (SLA)
2.Selective laser sintering (SLS)
3.Fused deposition modeling (FDM)
3D printing allows for the creation of objects from 3D model data through an additive process in which successive layers of material are laid down. It was invented in the 1980s and has since expanded to include various technologies and a wide range of materials. 3D printing provides benefits such as flexible designs, cost effectiveness, reduced material waste, and on-demand production. However, it also faces challenges including high equipment and material costs, intellectual property issues, and a lack of standardization and regulation. The global 3D printing market is large and growing rapidly. While still developing, 3D printing is used in Nepal for applications such as prototypes, medical devices, and educational models. Its various technologies can be applied across industries such as aer
The presentation contains all the data about 3D printing. How it is done, what are the various ways of 3D printing process along with its Advantage & Disadvantage, type of raw material used, etc....
3D printing, also known as additive manufacturing, involves using computer-aided design to create three-dimensional solid objects by depositing material layer by layer. It was invented in 1984 and allows for complex shapes to be produced quickly and with less waste than traditional manufacturing. 3D printers work by taking a digital file and building the object layer by layer, with some common types being selective laser sintering, stereolithography, and fused deposition modeling. 3D printing has many applications in fields like engineering, industrial design, automotive, aerospace, medical, dental and jewelry manufacturing.
3D printing involves using various processes to create 3D objects of any shape by laying down successive layers of liquid, powder, or sheet material according to a digital design file. It was invented in 1983 but has since developed many new features. It is used widely in manufacturing tools for industries like medicine, where it can be used to produce simulated organs, as well as for jewelry, art, architecture, and fashion design. In the future, 4D printing may allow objects to have sound, taste, and other interactive properties.
This document provides an overview of 3D printing, including its history, technologies, applications, effects, and challenges. It describes how 3D printing works by using computer-aided design to create a 3D model that is built up in layers, with different methods using materials like plastic, powder, or resin. Applications discussed include fashion, entertainment, medicine, and space exploration. Challenges addressed are intellectual property issues and potential misuse, though advantages are noted as flexibility, rapid prototyping, and cost effectiveness. The conclusion discusses the technology's promising future in areas like medicine, arts, and manufacturing.
The document summarizes information about 3D printing from an overview presented by Sudarshan GJ. It discusses the basics of 3D printing including how it works by building objects layer by layer, common printing methods like stereolithography and fused deposition modeling, materials that can be used, and applications in industries like manufacturing, clothing, medicine, and architecture. The future of 3D printing is also discussed including possibilities like 3D printed organs and food.
Impressoras 3D permitem imprimir objetos tridimensionais projetados em computador de forma rápida e relativamente barata, usando diversos materiais como plástico. O modelo 3D é inserido no software da impressora que derrete e deposita o material em camadas para formar o objeto. Impressoras 3D podem imprimir itens para arte, entretenimento, saúde, cozinha e indústria.
The document discusses different types of 3D printing technologies including subtractive manufacturing, additive manufacturing, stereolithography, selective laser sintering, fused deposition modeling, and digital light processing. It provides details on the history and development of these technologies from the 1980s onward. The key advantages of 3D printing discussed are rapid prototyping, customization of designs, and potential applications in industries like manufacturing, construction, automotive, medical and more.
Abstract
Introduction To 3D Printing
History
Types of 3D Scanner
Components Of 3D Printer
Material used for 3D Printing
Working
Software Required For 3D Printing
Advantages Of 3D Printing
Limitations Of 3D Printing
Applications
Future Scope
Conclusion
References
Unlocking Productivity: Leveraging the Potential of Copilot in Microsoft 365, a presentation by Christoforos Vlachos, Senior Solutions Manager – Modern Workplace, Uni Systems
GraphRAG for Life Science to increase LLM accuracyTomaz Bratanic
GraphRAG for life science domain, where you retriever information from biomedical knowledge graphs using LLMs to increase the accuracy and performance of generated answers
Charles Hull created the first 3D printer in 1984, which he named stereolithography. The printer worked by selectively hardening layers of liquid photopolymer resin with ultraviolet light to build 3D objects layer by layer. Since then, other companies developed different 3D printing techniques like selective laser sintering and fused deposition modeling. 3D printing is now used across many industries to quickly prototype designs and produce custom parts and products.
3D printing is an additive manufacturing process where a three-dimensional object is created by laying down successive layers of material under computer control. It builds an object from a digital file describing its shape in thin cross-sections. The 3D printer reads this file and deposits layers of material one by one until the object is completed. Common materials used include plastics, metals, ceramics, and edible substances. 3D printing offers advantages over traditional manufacturing as it enables the creation of complex geometries and customized parts.
3D printer by Mandar Gadkari,3d printer, 3d printing, attractive ppt on 3d p...Mandar Gadkari
3D printing is an additive manufacturing process that creates 3D objects by laying down successive layers of material. It allows for rapid prototyping and complex shapes to be produced at low cost. The document discusses how 3D printers work by applying layers of powder and a binding agent, and then outlines applications in product design, medicine for printing body parts, and architecture for creating models. Advantages include low waste and cost, while disadvantages include the printers still being expensive and the process being slow. The future of 3D printing is discussed as the technology advances.
This document outlines a six-week industrial training report on AutoCAD. It discusses the history and latest version of AutoCAD, the AutoCAD interface and coordinate system, and lists common 2D and 3D commands. Benefits of AutoCAD include the ability to quickly create accurate designs and easily modify or transfer them, saving time over hand drafting. An example design of a vehicle side view is also mentioned.
Impressão 3D: conceitos, mercado e hardware livreCláudio Sampaio
O documento apresenta uma palestra sobre impressão 3D, abordando seu histórico desde os anos 1980, os conceitos e partes de uma impressora 3D, as etapas do processo de impressão, softwares utilizados e exemplos de aplicações como objetos domésticos, projetos mecânicos e eletrônicos, e até uso em projetos biomédicos.
Additive manufacturing, commonly referred to as 3d printing, is a manufacturing
technique that rises in the 1980’s mainly focused on engineering prototyping. Current
advances in the precision and cost of the techniques, as well as the widespread use of 3d
designing have increased 3d printing’s scope of use from high-end engineering prototypes
to a large variety of uses in manufacturing. 3d printing improve the processing time,
decrease waste, and increase the level of customization of certain products by eliminating
the need for the specialty tooling and dies that are traditionally used in manufacturing. In
addition, the ability to physically print difficult shapes based on a computer model has
given rise to new products that would otherwise be simply impossible to create. The
various fields have taken advantage of this technology by printing 3d objects.
Charles Hull invented 3D printing in 1984 after advancements in inkjet printing. 3D printing works by using CAD software to slice a virtual model into layers and depositing material layer by layer until the final model is complete. There are several types of 3D printing including stereolithography, selective laser melting, and fused deposition modeling. 3D printing offers advantages like less waste, cheap manufacturing, and quick production but also has disadvantages such as weaker parts, rougher surfaces, and potential for misuse.
3DPrinting Technologies
echnologiesthatbuild3Dobjectsbyaddinglayer-upon-layerofmaterial,whetherthematerialisplastic,metal,concreteoranycompositematerials. There are three types of Printer.
1.Stereo lithography (SLA)
2.Selective laser sintering (SLS)
3.Fused deposition modeling (FDM)
3D printing allows for the creation of objects from 3D model data through an additive process in which successive layers of material are laid down. It was invented in the 1980s and has since expanded to include various technologies and a wide range of materials. 3D printing provides benefits such as flexible designs, cost effectiveness, reduced material waste, and on-demand production. However, it also faces challenges including high equipment and material costs, intellectual property issues, and a lack of standardization and regulation. The global 3D printing market is large and growing rapidly. While still developing, 3D printing is used in Nepal for applications such as prototypes, medical devices, and educational models. Its various technologies can be applied across industries such as aer
The presentation contains all the data about 3D printing. How it is done, what are the various ways of 3D printing process along with its Advantage & Disadvantage, type of raw material used, etc....
3D printing, also known as additive manufacturing, involves using computer-aided design to create three-dimensional solid objects by depositing material layer by layer. It was invented in 1984 and allows for complex shapes to be produced quickly and with less waste than traditional manufacturing. 3D printers work by taking a digital file and building the object layer by layer, with some common types being selective laser sintering, stereolithography, and fused deposition modeling. 3D printing has many applications in fields like engineering, industrial design, automotive, aerospace, medical, dental and jewelry manufacturing.
3D printing involves using various processes to create 3D objects of any shape by laying down successive layers of liquid, powder, or sheet material according to a digital design file. It was invented in 1983 but has since developed many new features. It is used widely in manufacturing tools for industries like medicine, where it can be used to produce simulated organs, as well as for jewelry, art, architecture, and fashion design. In the future, 4D printing may allow objects to have sound, taste, and other interactive properties.
This document provides an overview of 3D printing, including its history, technologies, applications, effects, and challenges. It describes how 3D printing works by using computer-aided design to create a 3D model that is built up in layers, with different methods using materials like plastic, powder, or resin. Applications discussed include fashion, entertainment, medicine, and space exploration. Challenges addressed are intellectual property issues and potential misuse, though advantages are noted as flexibility, rapid prototyping, and cost effectiveness. The conclusion discusses the technology's promising future in areas like medicine, arts, and manufacturing.
The document summarizes information about 3D printing from an overview presented by Sudarshan GJ. It discusses the basics of 3D printing including how it works by building objects layer by layer, common printing methods like stereolithography and fused deposition modeling, materials that can be used, and applications in industries like manufacturing, clothing, medicine, and architecture. The future of 3D printing is also discussed including possibilities like 3D printed organs and food.
Impressoras 3D permitem imprimir objetos tridimensionais projetados em computador de forma rápida e relativamente barata, usando diversos materiais como plástico. O modelo 3D é inserido no software da impressora que derrete e deposita o material em camadas para formar o objeto. Impressoras 3D podem imprimir itens para arte, entretenimento, saúde, cozinha e indústria.
The document discusses different types of 3D printing technologies including subtractive manufacturing, additive manufacturing, stereolithography, selective laser sintering, fused deposition modeling, and digital light processing. It provides details on the history and development of these technologies from the 1980s onward. The key advantages of 3D printing discussed are rapid prototyping, customization of designs, and potential applications in industries like manufacturing, construction, automotive, medical and more.
Abstract
Introduction To 3D Printing
History
Types of 3D Scanner
Components Of 3D Printer
Material used for 3D Printing
Working
Software Required For 3D Printing
Advantages Of 3D Printing
Limitations Of 3D Printing
Applications
Future Scope
Conclusion
References
Unlocking Productivity: Leveraging the Potential of Copilot in Microsoft 365, a presentation by Christoforos Vlachos, Senior Solutions Manager – Modern Workplace, Uni Systems
GraphRAG for Life Science to increase LLM accuracyTomaz Bratanic
GraphRAG for life science domain, where you retriever information from biomedical knowledge graphs using LLMs to increase the accuracy and performance of generated answers
Driving Business Innovation: Latest Generative AI Advancements & Success StorySafe Software
Are you ready to revolutionize how you handle data? Join us for a webinar where we’ll bring you up to speed with the latest advancements in Generative AI technology and discover how leveraging FME with tools from giants like Google Gemini, Amazon, and Microsoft OpenAI can supercharge your workflow efficiency.
During the hour, we’ll take you through:
Guest Speaker Segment with Hannah Barrington: Dive into the world of dynamic real estate marketing with Hannah, the Marketing Manager at Workspace Group. Hear firsthand how their team generates engaging descriptions for thousands of office units by integrating diverse data sources—from PDF floorplans to web pages—using FME transformers, like OpenAIVisionConnector and AnthropicVisionConnector. This use case will show you how GenAI can streamline content creation for marketing across the board.
Ollama Use Case: Learn how Scenario Specialist Dmitri Bagh has utilized Ollama within FME to input data, create custom models, and enhance security protocols. This segment will include demos to illustrate the full capabilities of FME in AI-driven processes.
Custom AI Models: Discover how to leverage FME to build personalized AI models using your data. Whether it’s populating a model with local data for added security or integrating public AI tools, find out how FME facilitates a versatile and secure approach to AI.
We’ll wrap up with a live Q&A session where you can engage with our experts on your specific use cases, and learn more about optimizing your data workflows with AI.
This webinar is ideal for professionals seeking to harness the power of AI within their data management systems while ensuring high levels of customization and security. Whether you're a novice or an expert, gain actionable insights and strategies to elevate your data processes. Join us to see how FME and AI can revolutionize how you work with data!
Why You Should Replace Windows 11 with Nitrux Linux 3.5.0 for enhanced perfor...SOFTTECHHUB
The choice of an operating system plays a pivotal role in shaping our computing experience. For decades, Microsoft's Windows has dominated the market, offering a familiar and widely adopted platform for personal and professional use. However, as technological advancements continue to push the boundaries of innovation, alternative operating systems have emerged, challenging the status quo and offering users a fresh perspective on computing.
One such alternative that has garnered significant attention and acclaim is Nitrux Linux 3.5.0, a sleek, powerful, and user-friendly Linux distribution that promises to redefine the way we interact with our devices. With its focus on performance, security, and customization, Nitrux Linux presents a compelling case for those seeking to break free from the constraints of proprietary software and embrace the freedom and flexibility of open-source computing.
Threats to mobile devices are more prevalent and increasing in scope and complexity. Users of mobile devices desire to take full advantage of the features
available on those devices, but many of the features provide convenience and capability but sacrifice security. This best practices guide outlines steps the users can take to better protect personal devices and information.
AI 101: An Introduction to the Basics and Impact of Artificial IntelligenceIndexBug
Imagine a world where machines not only perform tasks but also learn, adapt, and make decisions. This is the promise of Artificial Intelligence (AI), a technology that's not just enhancing our lives but revolutionizing entire industries.
Building Production Ready Search Pipelines with Spark and MilvusZilliz
Spark is the widely used ETL tool for processing, indexing and ingesting data to serving stack for search. Milvus is the production-ready open-source vector database. In this talk we will show how to use Spark to process unstructured data to extract vector representations, and push the vectors to Milvus vector database for search serving.
Goodbye Windows 11: Make Way for Nitrux Linux 3.5.0!SOFTTECHHUB
As the digital landscape continually evolves, operating systems play a critical role in shaping user experiences and productivity. The launch of Nitrux Linux 3.5.0 marks a significant milestone, offering a robust alternative to traditional systems such as Windows 11. This article delves into the essence of Nitrux Linux 3.5.0, exploring its unique features, advantages, and how it stands as a compelling choice for both casual users and tech enthusiasts.
In the rapidly evolving landscape of technologies, XML continues to play a vital role in structuring, storing, and transporting data across diverse systems. The recent advancements in artificial intelligence (AI) present new methodologies for enhancing XML development workflows, introducing efficiency, automation, and intelligent capabilities. This presentation will outline the scope and perspective of utilizing AI in XML development. The potential benefits and the possible pitfalls will be highlighted, providing a balanced view of the subject.
We will explore the capabilities of AI in understanding XML markup languages and autonomously creating structured XML content. Additionally, we will examine the capacity of AI to enrich plain text with appropriate XML markup. Practical examples and methodological guidelines will be provided to elucidate how AI can be effectively prompted to interpret and generate accurate XML markup.
Further emphasis will be placed on the role of AI in developing XSLT, or schemas such as XSD and Schematron. We will address the techniques and strategies adopted to create prompts for generating code, explaining code, or refactoring the code, and the results achieved.
The discussion will extend to how AI can be used to transform XML content. In particular, the focus will be on the use of AI XPath extension functions in XSLT, Schematron, Schematron Quick Fixes, or for XML content refactoring.
The presentation aims to deliver a comprehensive overview of AI usage in XML development, providing attendees with the necessary knowledge to make informed decisions. Whether you’re at the early stages of adopting AI or considering integrating it in advanced XML development, this presentation will cover all levels of expertise.
By highlighting the potential advantages and challenges of integrating AI with XML development tools and languages, the presentation seeks to inspire thoughtful conversation around the future of XML development. We’ll not only delve into the technical aspects of AI-powered XML development but also discuss practical implications and possible future directions.
Maruthi Prithivirajan, Head of ASEAN & IN Solution Architecture, Neo4j
Get an inside look at the latest Neo4j innovations that enable relationship-driven intelligence at scale. Learn more about the newest cloud integrations and product enhancements that make Neo4j an essential choice for developers building apps with interconnected data and generative AI.
Let's Integrate MuleSoft RPA, COMPOSER, APM with AWS IDP along with Slackshyamraj55
Discover the seamless integration of RPA (Robotic Process Automation), COMPOSER, and APM with AWS IDP enhanced with Slack notifications. Explore how these technologies converge to streamline workflows, optimize performance, and ensure secure access, all while leveraging the power of AWS IDP and real-time communication via Slack notifications.
Pushing the limits of ePRTC: 100ns holdover for 100 daysAdtran
At WSTS 2024, Alon Stern explored the topic of parametric holdover and explained how recent research findings can be implemented in real-world PNT networks to achieve 100 nanoseconds of accuracy for up to 100 days.
In his public lecture, Christian Timmerer provides insights into the fascinating history of video streaming, starting from its humble beginnings before YouTube to the groundbreaking technologies that now dominate platforms like Netflix and ORF ON. Timmerer also presents provocative contributions of his own that have significantly influenced the industry. He concludes by looking at future challenges and invites the audience to join in a discussion.
Climate Impact of Software Testing at Nordic Testing DaysKari Kakkonen
My slides at Nordic Testing Days 6.6.2024
Climate impact / sustainability of software testing discussed on the talk. ICT and testing must carry their part of global responsibility to help with the climat warming. We can minimize the carbon footprint but we can also have a carbon handprint, a positive impact on the climate. Quality characteristics can be added with sustainability, and then measured continuously. Test environments can be used less, and in smaller scale and on demand. Test techniques can be used in optimizing or minimizing number of tests. Test automation can be used to speed up testing.
Unlock the Future of Search with MongoDB Atlas_ Vector Search Unleashed.pdfMalak Abu Hammad
Discover how MongoDB Atlas and vector search technology can revolutionize your application's search capabilities. This comprehensive presentation covers:
* What is Vector Search?
* Importance and benefits of vector search
* Practical use cases across various industries
* Step-by-step implementation guide
* Live demos with code snippets
* Enhancing LLM capabilities with vector search
* Best practices and optimization strategies
Perfect for developers, AI enthusiasts, and tech leaders. Learn how to leverage MongoDB Atlas to deliver highly relevant, context-aware search results, transforming your data retrieval process. Stay ahead in tech innovation and maximize the potential of your applications.
#MongoDB #VectorSearch #AI #SemanticSearch #TechInnovation #DataScience #LLM #MachineLearning #SearchTechnology
Infrastructure Challenges in Scaling RAG with Custom AI modelsZilliz
Building Retrieval-Augmented Generation (RAG) systems with open-source and custom AI models is a complex task. This talk explores the challenges in productionizing RAG systems, including retrieval performance, response synthesis, and evaluation. We’ll discuss how to leverage open-source models like text embeddings, language models, and custom fine-tuned models to enhance RAG performance. Additionally, we’ll cover how BentoML can help orchestrate and scale these AI components efficiently, ensuring seamless deployment and management of RAG systems in the cloud.
Communications Mining Series - Zero to Hero - Session 1DianaGray10
This session provides introduction to UiPath Communication Mining, importance and platform overview. You will acquire a good understand of the phases in Communication Mining as we go over the platform with you. Topics covered:
• Communication Mining Overview
• Why is it important?
• How can it help today’s business and the benefits
• Phases in Communication Mining
• Demo on Platform overview
• Q/A
2. #why3dprinting
Chuck hull got the idea while using UV light to harden table top coatings
Chuck Hull from USA invented 3D printing technology in 1983
3. #why3dprinting
3D printing technology
was initially known as
Stereolithography
Rapid prototyping was
the first industrial
application
Did you know??
Eye wash cup was the first 3D printed object
4. #why3dprinting
Interesting facts
• Kodama from japan
was first to patent the
3D printing technology
but chuck hull won the
race as he was the first
to commercialise the
technology
• Chuck hull founded
the world’s first 3D
printing company
called 3D systems in
1986
SLA-1 the first
commercial
3D Printer