The document discusses the need for a long-term maintained industrial-grade embedded Linux platform, called the Civil Infrastructure Platform (CIP), to support critical infrastructure systems with lifetimes of 10-60 years. The CIP initiative aims to establish this platform by selecting a long-term supported Linux kernel and filling gaps between open source software capabilities and industrial requirements. It will provide reference implementations, trigger ecosystem development, and share maintenance costs between participating members.
Flexible and Scalable Integration in the Automation Industry/Industrial IoTconfluent
Speaker: Kai Waehner, Technology Evangelist, Confluent
Kafka-Native, End-to-End IIoT Data Integration and Processing with Kafka Connect, KSQL, and PLC4X
IIoT / Industry 4.0 with Apache Kafka, Connect, KSQL, Apache PLC4X Kai Wähner
Data integration and processing is a huge challenge in Industrial IoT (IIoT, aka Industry 4.0 or Automation Industry) due to monolithic systems and proprietary protocols. Apache Kafka, its ecosystem (Kafka Connect, KSQL) and Apache PLC4X are a great open source choice to implement this integration end to end in a scalable, reliable and flexible way.
This blog post covers a high level overview about the challenges and a good, flexible architecture. At the end, I share a video recording and the corresponding slide deck. These provide many more details and insights.
Apache Kafka is the De-facto Standard for Real-Time Event Streaming. It provides
Open Source (Apache 2.0 License)
Global-scale
Real-time
Persistent Storage
Stream Processing
PCL4X allows vertical integration and to write software independent of PLCs using JDBC-like adapters for various protocols like Siemens S7, Modbus, Allen Bradley, Beckhoff ADS, OPC-UA, Emerson, Profinet, BACnet, Ethernet.
Github example: https://github.com/kaiwaehner/iiot-integration-apache-plc4x-kafka-connect-ksql-opc-ua-modbus-siemens-s7
More details: http://www.kai-waehner.de/blog/2019/09/02/iiot-data-integr…and-apache-plc4x/
Video Recording: https://youtu.be/RWKggid25ds
Spring Driven Industrial IoT Utilizing Edge, Fog, and Cloud ComputingVMware Tanzu
SpringOne Platform 2017
Barry Wood, RPY Motion; Mark Weislow, Pivotal
"During this presentation, you will see a demonstration, including live manufacturing equipment, for an end to end feedback workflow of Industrial Spring IOT:
How Spring driven IoT can be utilized to manufacture complimentary parts from multiple industrial processes, such as CNC boring and CNC turning manufacturing operations; (matching Pistons and Cylinders in a Turbine engine as an example)
Edge based real-time analytics and control will be demonstrated in a multi-tasking industrial Programmable Logic Controller (PLC);
Data exchange between PLC and IoT Bridge utilizing Spring Integration TCP/UDP communications;
Fog based analytics in the IoT Bridge utilizing GemFire Multi-Site data exchange and Spring Websocket based HMI;
Final parts matching and Quality Assurance will occur in a PCF instance utilizing cloud caching and Spring micro-services where parts sequencing data will be returned to the IoT Bridge HMI for proper sequencing of the parts in container cells."
Deployment of the Festo PA Workstation for Undergraduate Training on Industri...theijes
Industrial automation involves the use of machines, control systems and information technologies in optimizing productivity in the production of goods and delivery of services. The Festo compact process automation (PA) workstation is a piece of laboratory equipment designed for the training of process automation engineers. It consist of programmable logic controller (PLC) rack, output devices (including several valves, a motor, a centrifugal pump etc), input devices (including flow sensor, heat sensor, level sensor, pressure sensor), switches, network of pipes, two storage tanks a heating and a cooling system. This paper presents the automation of liquid control process implemented on the PA workstation using PLC programming, manual liquid process control using Human Machine Interface (HMI) and Supervisory Control and Data Acquisition (SCADA) system. These devices and systems are all networked together with the workstation through Ethernet and Field-Bus (Profibus) technology. Process visualization from HMI and SCADA runtime screens are presented and analyzed to validate the integrity of the PA workstation in implementing process control. The results obtained shows that the workstation can mimic most industrial processes and deployable for the enhancement of students’ training on process automation.
InSource 2017 IIoT Roadshow: Collecting and Moving DataInSource Solutions
By Pete Bayes, Advantech
In today’s world, the infrastructure provided by smart city and industrial automation systems enables continuous connectivity. The commonality shared by such systems is their association with the Internet of Things (IoT). With the inclusion of sensors and control devices, entire infrastructures can be integrated with information and communication technologies, resulting in networked and embedded devices that enable intelligent monitoring and management.
Advantech is a global leader in the embedded computing market, learn more by viewing the presentation.
Flexible and Scalable Integration in the Automation Industry/Industrial IoTconfluent
Speaker: Kai Waehner, Technology Evangelist, Confluent
Kafka-Native, End-to-End IIoT Data Integration and Processing with Kafka Connect, KSQL, and PLC4X
IIoT / Industry 4.0 with Apache Kafka, Connect, KSQL, Apache PLC4X Kai Wähner
Data integration and processing is a huge challenge in Industrial IoT (IIoT, aka Industry 4.0 or Automation Industry) due to monolithic systems and proprietary protocols. Apache Kafka, its ecosystem (Kafka Connect, KSQL) and Apache PLC4X are a great open source choice to implement this integration end to end in a scalable, reliable and flexible way.
This blog post covers a high level overview about the challenges and a good, flexible architecture. At the end, I share a video recording and the corresponding slide deck. These provide many more details and insights.
Apache Kafka is the De-facto Standard for Real-Time Event Streaming. It provides
Open Source (Apache 2.0 License)
Global-scale
Real-time
Persistent Storage
Stream Processing
PCL4X allows vertical integration and to write software independent of PLCs using JDBC-like adapters for various protocols like Siemens S7, Modbus, Allen Bradley, Beckhoff ADS, OPC-UA, Emerson, Profinet, BACnet, Ethernet.
Github example: https://github.com/kaiwaehner/iiot-integration-apache-plc4x-kafka-connect-ksql-opc-ua-modbus-siemens-s7
More details: http://www.kai-waehner.de/blog/2019/09/02/iiot-data-integr…and-apache-plc4x/
Video Recording: https://youtu.be/RWKggid25ds
Spring Driven Industrial IoT Utilizing Edge, Fog, and Cloud ComputingVMware Tanzu
SpringOne Platform 2017
Barry Wood, RPY Motion; Mark Weislow, Pivotal
"During this presentation, you will see a demonstration, including live manufacturing equipment, for an end to end feedback workflow of Industrial Spring IOT:
How Spring driven IoT can be utilized to manufacture complimentary parts from multiple industrial processes, such as CNC boring and CNC turning manufacturing operations; (matching Pistons and Cylinders in a Turbine engine as an example)
Edge based real-time analytics and control will be demonstrated in a multi-tasking industrial Programmable Logic Controller (PLC);
Data exchange between PLC and IoT Bridge utilizing Spring Integration TCP/UDP communications;
Fog based analytics in the IoT Bridge utilizing GemFire Multi-Site data exchange and Spring Websocket based HMI;
Final parts matching and Quality Assurance will occur in a PCF instance utilizing cloud caching and Spring micro-services where parts sequencing data will be returned to the IoT Bridge HMI for proper sequencing of the parts in container cells."
Deployment of the Festo PA Workstation for Undergraduate Training on Industri...theijes
Industrial automation involves the use of machines, control systems and information technologies in optimizing productivity in the production of goods and delivery of services. The Festo compact process automation (PA) workstation is a piece of laboratory equipment designed for the training of process automation engineers. It consist of programmable logic controller (PLC) rack, output devices (including several valves, a motor, a centrifugal pump etc), input devices (including flow sensor, heat sensor, level sensor, pressure sensor), switches, network of pipes, two storage tanks a heating and a cooling system. This paper presents the automation of liquid control process implemented on the PA workstation using PLC programming, manual liquid process control using Human Machine Interface (HMI) and Supervisory Control and Data Acquisition (SCADA) system. These devices and systems are all networked together with the workstation through Ethernet and Field-Bus (Profibus) technology. Process visualization from HMI and SCADA runtime screens are presented and analyzed to validate the integrity of the PA workstation in implementing process control. The results obtained shows that the workstation can mimic most industrial processes and deployable for the enhancement of students’ training on process automation.
InSource 2017 IIoT Roadshow: Collecting and Moving DataInSource Solutions
By Pete Bayes, Advantech
In today’s world, the infrastructure provided by smart city and industrial automation systems enables continuous connectivity. The commonality shared by such systems is their association with the Internet of Things (IoT). With the inclusion of sensors and control devices, entire infrastructures can be integrated with information and communication technologies, resulting in networked and embedded devices that enable intelligent monitoring and management.
Advantech is a global leader in the embedded computing market, learn more by viewing the presentation.
Feasible Interfacing and Programming of Industrial Control Technology Unit wi...theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
SLTS kernel and base-layer development in the Civil Infrastructure PlatformYoshitake Kobayashi
The Civil Infrastructure Platform (CIP) is creating a super long-term supported (SLTS) open source "base layer" for industrial grade software. We have been working on security fixes and some backported features since the moment we decided that Linux kernel v4.4 would be the first SLTS version. In this talk, we will describe the current development status of the SLTS kernel and testing environment. First, we'll explain our kernel development policy. Then, we'll describe the functionality that has been backported. Second, we'll talk about testing before using our base-layer on real products. We have been developing a test framework to collect and share test results. To build it, we don't want to duplicate existing work such as KernelCI, Fuego and others. For that reason, we are trying to collaborate and contribute to such projects. And finally, we'll discuss the future roadmap.
Final Year Projects, Final Year Projects in Chennai, Software Projects, Embedded Projects, Microcontrollers Projects, DSP Projects, VLSI Projects, Matlab Projects, Java Projects, .NET Projects, IEEE Projects, IEEE 2009 Projects, IEEE 2009 Projects, Software, IEEE 2009 Projects, Embedded, Software IEEE 2009 Projects, Embedded IEEE 2009 Projects, Final Year Project Titles, Final Year Project Reports, Final Year Project Review, Robotics Projects, Mechanical Projects, Electrical Projects, Power Electronics Projects, Power System Projects, Model Projects, Java Projects, J2EE Projects, Engineering Projects, Student Projects, Engineering College Projects, MCA Projects, BE Projects, BTech Projects, ME Projects, MTech Projects, Wireless Networks Projects, Network Security Projects, Networking Projects, final year projects, ieee projects, student projects, college projects, ieee projects in chennai, java projects, software ieee projects, embedded ieee projects, "ieee2009projects", "final year projects", "ieee projects", "Engineering Projects", "Final Year Projects in Chennai", "Final year Projects at Chennai"
Invited talk at SSSW'16 (http://sssw.org/2016/?page_id=232) introducing the Fourth Industrial Revolution and discussing how Semantic Web technologies can support this movement. Also a teaser for the upcoming Springer book "Semantic Web for Intelligent Engineering Applications" (http://www.springer.com/us/book/9783319414881).
Repairs and maintenance of aircraft systems at Warner Robins
Air Logistics Center was tethered to an unreliable proprietary
control system prone to running the wrong recipes. The result:
irreparable damage to expensive airplane parts. Working with
PREMIER System Integrators, the organization implemented
a new solution with tightly integrated FactoryTalk® Batch,
Historian, VantagePoint® and ThinManager® software. The
new system has improved reliability and flexibility, boosting
utilization by 50 percent and saving tens of thousands of dollars
in under 60 days.
The Civil Infrastructure Platform (CIP) - launched in April - CIP defined and started to realize a super long-term supported open source "base layer" for industrial grade software. This base layer aims to be used for current and future industrial systems which supports machine-to-machine connectivity for digital future. This kind of systems, being the field for decades, should have long-term support for security and robustness reasons. In this talk, we will show the first steps on CIP development. This includes initial set of components for the base layer and its maintainers. Are you ready? It’s time to start your development with and for the CIP.
ProtegeGX is a web base access control solution that allows users to better control:
• Access control
• Intrusion detection
• Building automation
• Alarm monitoring
• Apartment management
• ID credential issuance and management
• Digital video
• Surveillance and management
• Real-time digital video content analysis
• Digital video
And much more...,
ICT dedicates 35% of its staff to research and development making their solutions powerful and reliable. ProtegeGX is loaded with features and functionalities that will keep your business safe.
Inaxsys Security System is a proud distributor of ProtegeGX, contact us for more information!
www.inaxsys.com
support@inaxsys.com
In the design of electronics and semiconductors, challenges are compounded by the integration of AI, multi-core, real-time software, network, connectivity, diagnostics, and security. Performance limits, battery life, and cost are adoption barriers. It is extremely important to have tools and processes that deliver efficiency throughout the design cycle.
Continuous verification from planning to development addresses the multi-discipline needs of hardware, software, and networks. This unique approach accelerates the design phase, defines the test efforts, and finds defects during specification. Architecture modeling is required to meet timing deadlines, generate the lowest power consumption, and attain the highest Quality-of-Service. optimize the electronic design system and designing of custom components.
Practical Distributed Control Systems (DCS) for Engineers and TechniciansLiving Online
This workshop will cover the practical applications of the modern Distributed Control System (DCS). Whilst all control systems are distributed to a certain extent today and there is a definite merging of the concepts of a DCS, Programmable Logic Controller (PLC) and SCADA and despite the rapid growth in the use of PLC’s and SCADA systems, some of the advantages of a DCS can still be said to be Integrity and Engineering time.
Abnormal Situation Management and Intelligent Alarm Management is a very important DCS issue that provides significant advantages over PLC and SCADA systems.
Few DCSs do justice to the process in terms of controlling for superior performance – most of them merely do the basics and leave the rest to the operators. Operators tend to operate within their comfort zone; they don’t drive the process “like Vettel drives his Renault”. If more than one adverse condition developed at the same time and the system is too basic to act protectively, the operator would probably not be able to react adequately and risk a major deviation.
Not only is the process control functionality normally underdeveloped but on-line process and control system performance evaluation is rarely seen and alarm management is often badly done. Operators consequently have little feedback on their own performance and exceptional adverse conditions are often not handled as well as they should be. This workshop gives suggestions on dealing with these issues.
The losses in process performance due to the inadequately developed control functionality and the operator’s utilisation of the system are invisible in the conventional plant and process performance evaluation and reporting system; that is why it is so hard to make the case for eliminating these losses. Accounting for the invisible losses due to inferior control is not a simple matter, technically and managerially; so it is rarely attempted. A few suggestions are given in dealing with this.
Why are DCS generally so underutilised? Often because the vendor minimises the applications software development costs to be sure of winning the job, or because he does not know enough about the process or if it is a green-field situation, enough could not be known at commissioning time but no allowance was made to add the missing functionality during the ramp-up phase. Often the client does not have the technical skills in-house to realise the desired functionality is missing or to adequately specify the desired functionality.
This workshop examines all these issues and gives suggestions in dealing with them and whilst not being by any means exhaustive provides an excellent starting point for you in working with a DCS.
MORE INFORMATION: http://www.idc-online.com/content/practical-distributed-control-systems-dcs-engineers-technicians-2
Feasible Interfacing and Programming of Industrial Control Technology Unit wi...theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
SLTS kernel and base-layer development in the Civil Infrastructure PlatformYoshitake Kobayashi
The Civil Infrastructure Platform (CIP) is creating a super long-term supported (SLTS) open source "base layer" for industrial grade software. We have been working on security fixes and some backported features since the moment we decided that Linux kernel v4.4 would be the first SLTS version. In this talk, we will describe the current development status of the SLTS kernel and testing environment. First, we'll explain our kernel development policy. Then, we'll describe the functionality that has been backported. Second, we'll talk about testing before using our base-layer on real products. We have been developing a test framework to collect and share test results. To build it, we don't want to duplicate existing work such as KernelCI, Fuego and others. For that reason, we are trying to collaborate and contribute to such projects. And finally, we'll discuss the future roadmap.
Final Year Projects, Final Year Projects in Chennai, Software Projects, Embedded Projects, Microcontrollers Projects, DSP Projects, VLSI Projects, Matlab Projects, Java Projects, .NET Projects, IEEE Projects, IEEE 2009 Projects, IEEE 2009 Projects, Software, IEEE 2009 Projects, Embedded, Software IEEE 2009 Projects, Embedded IEEE 2009 Projects, Final Year Project Titles, Final Year Project Reports, Final Year Project Review, Robotics Projects, Mechanical Projects, Electrical Projects, Power Electronics Projects, Power System Projects, Model Projects, Java Projects, J2EE Projects, Engineering Projects, Student Projects, Engineering College Projects, MCA Projects, BE Projects, BTech Projects, ME Projects, MTech Projects, Wireless Networks Projects, Network Security Projects, Networking Projects, final year projects, ieee projects, student projects, college projects, ieee projects in chennai, java projects, software ieee projects, embedded ieee projects, "ieee2009projects", "final year projects", "ieee projects", "Engineering Projects", "Final Year Projects in Chennai", "Final year Projects at Chennai"
Invited talk at SSSW'16 (http://sssw.org/2016/?page_id=232) introducing the Fourth Industrial Revolution and discussing how Semantic Web technologies can support this movement. Also a teaser for the upcoming Springer book "Semantic Web for Intelligent Engineering Applications" (http://www.springer.com/us/book/9783319414881).
Repairs and maintenance of aircraft systems at Warner Robins
Air Logistics Center was tethered to an unreliable proprietary
control system prone to running the wrong recipes. The result:
irreparable damage to expensive airplane parts. Working with
PREMIER System Integrators, the organization implemented
a new solution with tightly integrated FactoryTalk® Batch,
Historian, VantagePoint® and ThinManager® software. The
new system has improved reliability and flexibility, boosting
utilization by 50 percent and saving tens of thousands of dollars
in under 60 days.
The Civil Infrastructure Platform (CIP) - launched in April - CIP defined and started to realize a super long-term supported open source "base layer" for industrial grade software. This base layer aims to be used for current and future industrial systems which supports machine-to-machine connectivity for digital future. This kind of systems, being the field for decades, should have long-term support for security and robustness reasons. In this talk, we will show the first steps on CIP development. This includes initial set of components for the base layer and its maintainers. Are you ready? It’s time to start your development with and for the CIP.
ProtegeGX is a web base access control solution that allows users to better control:
• Access control
• Intrusion detection
• Building automation
• Alarm monitoring
• Apartment management
• ID credential issuance and management
• Digital video
• Surveillance and management
• Real-time digital video content analysis
• Digital video
And much more...,
ICT dedicates 35% of its staff to research and development making their solutions powerful and reliable. ProtegeGX is loaded with features and functionalities that will keep your business safe.
Inaxsys Security System is a proud distributor of ProtegeGX, contact us for more information!
www.inaxsys.com
support@inaxsys.com
In the design of electronics and semiconductors, challenges are compounded by the integration of AI, multi-core, real-time software, network, connectivity, diagnostics, and security. Performance limits, battery life, and cost are adoption barriers. It is extremely important to have tools and processes that deliver efficiency throughout the design cycle.
Continuous verification from planning to development addresses the multi-discipline needs of hardware, software, and networks. This unique approach accelerates the design phase, defines the test efforts, and finds defects during specification. Architecture modeling is required to meet timing deadlines, generate the lowest power consumption, and attain the highest Quality-of-Service. optimize the electronic design system and designing of custom components.
Practical Distributed Control Systems (DCS) for Engineers and TechniciansLiving Online
This workshop will cover the practical applications of the modern Distributed Control System (DCS). Whilst all control systems are distributed to a certain extent today and there is a definite merging of the concepts of a DCS, Programmable Logic Controller (PLC) and SCADA and despite the rapid growth in the use of PLC’s and SCADA systems, some of the advantages of a DCS can still be said to be Integrity and Engineering time.
Abnormal Situation Management and Intelligent Alarm Management is a very important DCS issue that provides significant advantages over PLC and SCADA systems.
Few DCSs do justice to the process in terms of controlling for superior performance – most of them merely do the basics and leave the rest to the operators. Operators tend to operate within their comfort zone; they don’t drive the process “like Vettel drives his Renault”. If more than one adverse condition developed at the same time and the system is too basic to act protectively, the operator would probably not be able to react adequately and risk a major deviation.
Not only is the process control functionality normally underdeveloped but on-line process and control system performance evaluation is rarely seen and alarm management is often badly done. Operators consequently have little feedback on their own performance and exceptional adverse conditions are often not handled as well as they should be. This workshop gives suggestions on dealing with these issues.
The losses in process performance due to the inadequately developed control functionality and the operator’s utilisation of the system are invisible in the conventional plant and process performance evaluation and reporting system; that is why it is so hard to make the case for eliminating these losses. Accounting for the invisible losses due to inferior control is not a simple matter, technically and managerially; so it is rarely attempted. A few suggestions are given in dealing with this.
Why are DCS generally so underutilised? Often because the vendor minimises the applications software development costs to be sure of winning the job, or because he does not know enough about the process or if it is a green-field situation, enough could not be known at commissioning time but no allowance was made to add the missing functionality during the ramp-up phase. Often the client does not have the technical skills in-house to realise the desired functionality is missing or to adequately specify the desired functionality.
This workshop examines all these issues and gives suggestions in dealing with them and whilst not being by any means exhaustive provides an excellent starting point for you in working with a DCS.
MORE INFORMATION: http://www.idc-online.com/content/practical-distributed-control-systems-dcs-engineers-technicians-2
Personal stories about how those organizations and professionals who has been involved in FLOSS projects, specially big ones, embrace certain values, follow principles, master practices and acquire some competences that are extremely valuable in transformation processes towards agility at scale.
Some personal stories that support the idea that working on Open Source projects help professionals and organizations to shorten the path towards agility at scale.
Producing Systems That Enable The Innovation That Autonomous Vehicles Will Re...Agustin Benito Bethencourt
Description of some of the transformations that automotive will need to go when delivering Open SOurce based systems in order to enable autonomous vehicles.
In Need For A Linux Kernel Maintained For A Very Long Time? CIP Linux Kernel ...Agustin Benito Bethencourt
Problem statement that led CIP to go for the LTS model and process and overview of the CIP kernel maintenance process followed by the CIP kernel maintainers.
Introduction of KDE targetting automotive software developers at the Automotive Linux Summit 2018, that took place in Tokyo, JP. Description of the current gap between what AGL might need and what KDE can offer.
Primeros pasos del Software Libre en infraestructura civil Civil Infrastructu...Agustin Benito Bethencourt
Introducción a la iniciativa de la Linux Foundation llamada Civil Infrastructure Platform CIP. Descripción del problema que pretende resolver este grupo y sus primeros pasos Transparencias de la charla impartida en el OpenSOuthCode de Málaga, España.
Presentación realizada durante Akdemy-es 2017 invitando a los desarrolladores de esta comunidad a prestar atención al sector de automoción como manera de devolver KDE al centro de atención del mundo del desarrollo del Softare Libre.
The importance of the transformation of software production processes when in...Agustin Benito Bethencourt
Elements you need to consider in your software production (development, delivery and maintenance) when you introduce upstream code in you software production chain, in the automotive industry. Talk delivered at the Autonomous Driving Software Symposium 2017
Introductory talk of a serie from an event for Art students at the Art Faculty in the University of Málaga in December 2017. Definition of Libre Software and formats
Moving towards a more efficient and flexible delivery model in automotive env...Agustin Benito Bethencourt
Tips and lessons learnt from Codethink's experience, including mine, on delivering Linux based systems for automotive customers like OEMs, Tier 1s and consortiums. The talk was delivered at the AGL All Members Meeting in Munich, GE, Sept. 2016
Listen to the keynote address and hear about the latest developments from Rachana Ananthakrishnan and Ian Foster who review the updates to the Globus Platform and Service, and the relevance of Globus to the scientific community as an automation platform to accelerate scientific discovery.
AI Pilot Review: The World’s First Virtual Assistant Marketing SuiteGoogle
AI Pilot Review: The World’s First Virtual Assistant Marketing Suite
👉👉 Click Here To Get More Info 👇👇
https://sumonreview.com/ai-pilot-review/
AI Pilot Review: Key Features
✅Deploy AI expert bots in Any Niche With Just A Click
✅With one keyword, generate complete funnels, websites, landing pages, and more.
✅More than 85 AI features are included in the AI pilot.
✅No setup or configuration; use your voice (like Siri) to do whatever you want.
✅You Can Use AI Pilot To Create your version of AI Pilot And Charge People For It…
✅ZERO Manual Work With AI Pilot. Never write, Design, Or Code Again.
✅ZERO Limits On Features Or Usages
✅Use Our AI-powered Traffic To Get Hundreds Of Customers
✅No Complicated Setup: Get Up And Running In 2 Minutes
✅99.99% Up-Time Guaranteed
✅30 Days Money-Back Guarantee
✅ZERO Upfront Cost
See My Other Reviews Article:
(1) TubeTrivia AI Review: https://sumonreview.com/tubetrivia-ai-review
(2) SocioWave Review: https://sumonreview.com/sociowave-review
(3) AI Partner & Profit Review: https://sumonreview.com/ai-partner-profit-review
(4) AI Ebook Suite Review: https://sumonreview.com/ai-ebook-suite-review
Enhancing Research Orchestration Capabilities at ORNL.pdfGlobus
Cross-facility research orchestration comes with ever-changing constraints regarding the availability and suitability of various compute and data resources. In short, a flexible data and processing fabric is needed to enable the dynamic redirection of data and compute tasks throughout the lifecycle of an experiment. In this talk, we illustrate how we easily leveraged Globus services to instrument the ACE research testbed at the Oak Ridge Leadership Computing Facility with flexible data and task orchestration capabilities.
Paketo Buildpacks : la meilleure façon de construire des images OCI? DevopsDa...Anthony Dahanne
Les Buildpacks existent depuis plus de 10 ans ! D’abord, ils étaient utilisés pour détecter et construire une application avant de la déployer sur certains PaaS. Ensuite, nous avons pu créer des images Docker (OCI) avec leur dernière génération, les Cloud Native Buildpacks (CNCF en incubation). Sont-ils une bonne alternative au Dockerfile ? Que sont les buildpacks Paketo ? Quelles communautés les soutiennent et comment ?
Venez le découvrir lors de cette session ignite
Accelerate Enterprise Software Engineering with PlatformlessWSO2
Key takeaways:
Challenges of building platforms and the benefits of platformless.
Key principles of platformless, including API-first, cloud-native middleware, platform engineering, and developer experience.
How Choreo enables the platformless experience.
How key concepts like application architecture, domain-driven design, zero trust, and cell-based architecture are inherently a part of Choreo.
Demo of an end-to-end app built and deployed on Choreo.
Quarkus Hidden and Forbidden ExtensionsMax Andersen
Quarkus has a vast extension ecosystem and is known for its subsonic and subatomic feature set. Some of these features are not as well known, and some extensions are less talked about, but that does not make them less interesting - quite the opposite.
Come join this talk to see some tips and tricks for using Quarkus and some of the lesser known features, extensions and development techniques.
In 2015, I used to write extensions for Joomla, WordPress, phpBB3, etc and I ...Juraj Vysvader
In 2015, I used to write extensions for Joomla, WordPress, phpBB3, etc and I didn't get rich from it but it did have 63K downloads (powered possible tens of thousands of websites).
Large Language Models and the End of ProgrammingMatt Welsh
Talk by Matt Welsh at Craft Conference 2024 on the impact that Large Language Models will have on the future of software development. In this talk, I discuss the ways in which LLMs will impact the software industry, from replacing human software developers with AI, to replacing conventional software with models that perform reasoning, computation, and problem-solving.
Software Engineering, Software Consulting, Tech Lead.
Spring Boot, Spring Cloud, Spring Core, Spring JDBC, Spring Security,
Spring Transaction, Spring MVC,
Log4j, REST/SOAP WEB-SERVICES.
A Comprehensive Look at Generative AI in Retail App Testing.pdfkalichargn70th171
Traditional software testing methods are being challenged in retail, where customer expectations and technological advancements continually shape the landscape. Enter generative AI—a transformative subset of artificial intelligence technologies poised to revolutionize software testing.
Globus Compute wth IRI Workflows - GlobusWorld 2024Globus
As part of the DOE Integrated Research Infrastructure (IRI) program, NERSC at Lawrence Berkeley National Lab and ALCF at Argonne National Lab are working closely with General Atomics on accelerating the computing requirements of the DIII-D experiment. As part of the work the team is investigating ways to speedup the time to solution for many different parts of the DIII-D workflow including how they run jobs on HPC systems. One of these routes is looking at Globus Compute as a way to replace the current method for managing tasks and we describe a brief proof of concept showing how Globus Compute could help to schedule jobs and be a tool to connect compute at different facilities.
Innovating Inference - Remote Triggering of Large Language Models on HPC Clus...Globus
Large Language Models (LLMs) are currently the center of attention in the tech world, particularly for their potential to advance research. In this presentation, we'll explore a straightforward and effective method for quickly initiating inference runs on supercomputers using the vLLM tool with Globus Compute, specifically on the Polaris system at ALCF. We'll begin by briefly discussing the popularity and applications of LLMs in various fields. Following this, we will introduce the vLLM tool, and explain how it integrates with Globus Compute to efficiently manage LLM operations on Polaris. Attendees will learn the practical aspects of setting up and remotely triggering LLMs from local machines, focusing on ease of use and efficiency. This talk is ideal for researchers and practitioners looking to leverage the power of LLMs in their work, offering a clear guide to harnessing supercomputing resources for quick and effective LLM inference.
Enterprise Resource Planning System includes various modules that reduce any business's workload. Additionally, it organizes the workflows, which drives towards enhancing productivity. Here are a detailed explanation of the ERP modules. Going through the points will help you understand how the software is changing the work dynamics.
To know more details here: https://blogs.nyggs.com/nyggs/enterprise-resource-planning-erp-system-modules/
Into the Box Keynote Day 2: Unveiling amazing updates and announcements for modern CFML developers! Get ready for exciting releases and updates on Ortus tools and products. Stay tuned for cutting-edge innovations designed to boost your productivity.
TROUBLESHOOTING 9 TYPES OF OUTOFMEMORYERRORTier1 app
Even though at surface level ‘java.lang.OutOfMemoryError’ appears as one single error; underlyingly there are 9 types of OutOfMemoryError. Each type of OutOfMemoryError has different causes, diagnosis approaches and solutions. This session equips you with the knowledge, tools, and techniques needed to troubleshoot and conquer OutOfMemoryError in all its forms, ensuring smoother, more efficient Java applications.
Unleash Unlimited Potential with One-Time Purchase
BoxLang is more than just a language; it's a community. By choosing a Visionary License, you're not just investing in your success, you're actively contributing to the ongoing development and support of BoxLang.
6. 6
A Railway System:
25-50 years products life-cycle
with, again, very reluctant nature for product update and upgrade of hardware
and base software platform
8. The Problems we face …
• The systems that support our modern civilization needs to
survive for a VERY long time.
• The systems not only have to survive for a long time, it has to be
robust, secure and reliable.
• It is a huge deal for those systems to stop the systems for
maintenance or replace.
8
13. Railway Example
13
3 – 5 years development time
2 – 4 years customer specific extensions
1 year initial safety certifications / authorization
3 – 6 months safety certifications / authorization for follow-up releases
(depending on amount of changes)
25 – 50 years lifetime
Image: h%p://www.deutschebahn.com/contentblob/10862328/20160301+Stw+M%C3%BClheim+Innenansicht+1+(1)/data.jpg
14. Power Plant Control Example
14
3 – 5 years development time
0.5 – 4 years customer specific extensions
6 – 8 years supply time
15+ years hardware maintenance after latest shipment
20 – 60 years product lifetime
Image: h%p://zdnet1.cbsistaKc.com/hub/i/r/2016/02/29/10863f77-89b2-40c0-9d8c-dbaa5feb65be/resize/770xauto/490141cef9bddc0db66b492698b53a50/powerplant.jpg
15. Power plant runs on the Linux (please visit our booth)
15
MW
I P L P - A GE N E R AT OR
C V I V
H P L P - B
B oiler
T urbine
S peed Generator
Output
Valve pos ition/ dem and
s ig nal
Control Network
I/O Network
Duplex
System controller
・
・
・
Triple Redundant
Master controller
24. Scope of ac7vi7es
User spaceKernel space
Linux Kernel
App container
infrastructure (mid-term)
App Framework
(opKonally, mid-term)
Middleware/Libraries
Safe & Secure
Update
Monitoring
Domain Specific communication
(e.g. OPC UA)
Shared config. & logging
Real-time support
Real-time /
safe virtualization
Tools Concepts
Build environment
(e.g. yocto recipes)
Test automation
Tracing & reporting
tools
Configuration
management
Device management
(update, download)
Func7onal safety
architecture/strategy,
including compliance
w/ standards (e.g., NERC
CIP, IEC61508)
Long-term support
Strategy:
security patch
management
Standardiza7on
collaboraKve effort with
others
License clearing
Export Control
Classifica7on
On device sobware stack Product development
and maintenance
Application life-
cycle management
Security
24
25. Target Systems
25
Out of scope:
• Enterprise IT and cloud system plakorms.
ARM M0/M0+/M3/M4
8/16/32-bit, < 100 MHz 32-bit, <1 GHz 32/64-bit, <2 GHz 64-bit, >2 GHz
n MiB flash n GiB flash n GiB flash n TiB flash/HDD
< 1 MiB < 1 GiB < 4 GiB > 4 GiB
Arduino class board Raspberry Pi class board SoC-FPGA, e.g.Zync industrial PC
ARM M4/7,A9,R4/5/7
Networked Node Embedded ServerEmbedded ComputerEmbedded Control Unit
special purpose & server based controllerscontrol systems
multi-purpose controllersPLC gateways
Sensor, field device
1 2 3 4
ARM A9/A35,R7,Intel Atom
… Device class no.
Architecture, clock
non-volatile storage
HW ref. platform
ARM offerings1)
RAM
application examples
ARM A53/A72,Core,Xeon
Intel offerings1)
M0/M0+/M3/M4 M4/7, A9, R4/5/7 ARM A9/A35, R7 ARM A53/A72
ARM M0/M0+/M3/M4 ARM M4/7,A9,R4/5/7 ARM A9/A35,R7,Intel Atom ARM A53/A72,Core,XeonQuark MCU Quark SoC Atom Core, Xeon
Target systems
Reference hardware for common sobware plakorm:
§ Start from working the common HW plakorm (PC)
§ Later extend it to small/low power devices
1 4 1) Typical configuraKons Q1/2016