A common need in system architecture design is to verify that if the architect is correct and can satisfy its requirements.
Execution of system architect model means to interact with state machines to test system’s control logic. It can verify if the logical sequences of functions and interfaces in different scenarios are desired.
However, only sequence itself is not enough to verify its consequence or output. So we need each function to do what it is supposed to do during model execution to verify its output, and that is what we called “simulation”.
This presentation introduced how to embed Python or MATLAB® codes inside functions to do “simulation” within Capella.
System of Systems modeling comes with a tough decision for practitioners using traditional SysML V1 tools. Do I go with SysML V1, or do I look at Unified Architecture Framework? Capella eliminates that challenge with one notation that can be used for both.
By Tony Komar (Siemens)
Tony Komar has been practicing and supporting systems engineering for over 35 years.
Today he is a key contributor to the development and deployment of model-based system engineering products for Siemens Digital Industries Software.
Leveraging Ignition Quick Start to Rapidly Build Real ProjectsInductive Automation
Development is rarely an easy process, and getting started is often one of the hardest things about it. What if there was a way to get your next screen or application off the ground more quickly?
In this webinar, we’ll show you how to get projects started and finished more rapidly than ever by using Quick Start and other features of Ignition, an unlimited industrial platform for SCADA and much more. This is a great starting point for Ignition beginners and anyone interested in designing basic automation projects in a short amount of time.
Model-based systems engineering is everywhere - everyone talks about it, everyone wants to use it, but what is actually behind it? This question will be outlined by means of a playful approach and a real problem: "I pack my suitcase and take with me...".
Based on this problem, we will successively use the game to pack the suitcase with the help of SE and finally MBSE and present it by means of a small demonstration. Let's go together on the hopefully soon journey and pack our suitcase.
A common need in system architecture design is to verify that if the architect is correct and can satisfy its requirements.
Execution of system architect model means to interact with state machines to test system’s control logic. It can verify if the logical sequences of functions and interfaces in different scenarios are desired.
However, only sequence itself is not enough to verify its consequence or output. So we need each function to do what it is supposed to do during model execution to verify its output, and that is what we called “simulation”.
This presentation introduced how to embed Python or MATLAB® codes inside functions to do “simulation” within Capella.
System of Systems modeling comes with a tough decision for practitioners using traditional SysML V1 tools. Do I go with SysML V1, or do I look at Unified Architecture Framework? Capella eliminates that challenge with one notation that can be used for both.
By Tony Komar (Siemens)
Tony Komar has been practicing and supporting systems engineering for over 35 years.
Today he is a key contributor to the development and deployment of model-based system engineering products for Siemens Digital Industries Software.
Leveraging Ignition Quick Start to Rapidly Build Real ProjectsInductive Automation
Development is rarely an easy process, and getting started is often one of the hardest things about it. What if there was a way to get your next screen or application off the ground more quickly?
In this webinar, we’ll show you how to get projects started and finished more rapidly than ever by using Quick Start and other features of Ignition, an unlimited industrial platform for SCADA and much more. This is a great starting point for Ignition beginners and anyone interested in designing basic automation projects in a short amount of time.
Model-based systems engineering is everywhere - everyone talks about it, everyone wants to use it, but what is actually behind it? This question will be outlined by means of a playful approach and a real problem: "I pack my suitcase and take with me...".
Based on this problem, we will successively use the game to pack the suitcase with the help of SE and finally MBSE and present it by means of a small demonstration. Let's go together on the hopefully soon journey and pack our suitcase.
CPD Presentation Evaporative cooling in data centresColt UK
Data centres that use evaporative cooling can cut their energy bills by up to 80% compared to conventional cooling methods!
The specifications for the environmental operating conditions of IT equipment used in data centres have recently been revised, opening the way to evaporative cooling in such buildings. Evaporative cooling can provide a highly effective solution, with low installation and running costs, minimal maintenance requirements and quiet operation.
This seminar covers:
• Revisions to the specifications for the environmental operating conditions of IT equipment in data centres
• Options for cooling in a data centre
• Implementing evaporative cooling in a data centre.
[Capella Day 2019] Integrating Capella, SCADE and medini analyze, for MBSE, E...Obeo
Integrating Capella, SCADE and medini analyze, for MBSE, Embedded SW Development and Safety Analysis
Thierry Le Sergent, ANSYS
Thierry Le Sergent is Product Manager for ANSYS's SCADE Architect product. His focus is on model-based system & software engineering tools for the development of critical embedded systems.
Nowadays, we are surrounded by system of systems, autonomous systems, interconnected systems or distributed heterogeneous systems with an increase in architecture complexity.
Keeping these systems operational is a challenge as the number of potential failures which may affect their availability also increases drastically. In order to optimize availability, maintenance activities have to be designed within the design phase of the system.
Whatever the implementation choice, detection, diagnostic or prevention of failures require tests.
The goal for autonomous systems also pushes towards embedded detection and prevention capabilities and thus arguing and decision making between system engineers and maintenance engineers to share solutions in their respective activities.
In this presentation, we talk about the ability of a system designed with Capella to be tested, including in the maintenance phase. This means to interconnect several kinds of models representing different perspectives: System Design (MBSE), RAMS Analysis (Reliability, Availability, Maintainability and Safety) and Testability.
We present how a MBSE approach with Capella can be used to initiate a testability study performed with the eXpress tool from DSI International.
Introduction of SCADA, Architecture of SCADA, Software and hardware architecture, Components of a SCADA system, Functions of SCADA, Alarms and events, alarm logging, comparision between scada and DCS
Transformation organisationnelle - Plan de transformation basé sur l’architec...Miguel Iriart
Ce document présente un survol de haut niveau des principaux éléments à couvrir pour réussir la mise en œuvre d’une transformation et modernisation organisationnelle efficace. Ce survol est basé sur les bonnes pratiques afin de produire la feuille de route technologique (roadmap) alignée sur la stratégie d’affaires et sa gouvernance.
Drone Traffic Management over Mobile Networks - Attila Takacs, VTC 2017 Fall,...Attila Takacs
VTC 2017 Fall, industry track panel keynote presentation by Attila Takacs on Drone Traffic Management over Mobile Networks.
Technology Challenges in Enabling Safe Drones in Urban Environments Panel Summary—Unmanned Aerial Vehicles (UAV) are a profoundly disruptive technology poised to impact positively and substantially several industries. UAVs will reshape economic, social, security, environmental and political landscapes over the decades to come with PwC predicting that the addressable market value of drone powered solutions is over $127 billion. Current Air traffic control (ATC) systems cannot scale sufficiently to include UAV and provide command, control and communications (C3) infrastructure. NASA, with assistance from a confederation of industrial affiliates and partners, is developing an Unmanned Aerial System (UAS) Traffic Management (UTM) system to facilitate a framework for low altitude UAV operations and this is also being addressed at global level by GUTMA (Global UTM Association). It is envisioned that terrestrial cellular infrastructure will also provide coverage and C3 services to UAVs to enable beyond visual line-of-sight (BVLOS) operations. There are several challenges from a communications perspective in integrating UAVs to the terrestrial cellular network and to ensure their coexistence with terrestrial, commercial cellular users. Low altitude UAV operational complexities and traffic management, detect-and-avoid (DAA) challenges in urban and suburban environments, enabling end-to-end security, remote identification and tracking, acute differences in propagation conditions and interference patterns between terrestrial base stations and UAVs compared with terrestrial mobiles, higher mobility and velocity, stringent obligations in reliability and safety, ultra-low latency link for C3 are some of the elemental themes that require convincing answers. We discuss core principles in communications, UTM, end-to-end security and DAA to facilitate safe integration of UAVs into National Air Space.
Textual and model requirements: working together towards success
While Eclipse Capella is a model-based systems engineering environment,
it’s also clear that it enables the creation of model requirements
that complement textual requirements.
When dealing with both, textual and model requirements,
ensuring consistency and completeness are key to the final success of our systems.
A DevOps Playbook at DraftKings Built with New Relic and AWSAmazon Web Services
DraftKings is an innovative sports-tech and media entertainment platform changing the way consumers engage with their favorite sports, teams, and athletes by bringing fans closer to the game. Embracing a DevOps culture and continuous delivery allows DraftKings to consistently deliver the best possible fantasy sports experience for its customers. Learn how DraftKings leverages AWS and New Relic to support rapid application iteration and to enable teams to own responsibility for building, deploying, and reliably scaling their apps.
Data center specific thermal and energy saving techniquesXiao Qin
Abstract: Data centers are ever increasing as we become more reliant of web based transactions. The benefits of such massive computing are obvious by the speed and ease we can get most media or information. A challenge is that new large data centers introduce a level of energy consumption that the world has not seen before. The obvious energy cost of running the computers is a billion dollar problem, but there are hidden costs like running cooling systems as well. To help combat the problems of large data centers, we aim at developing solutions that can work for each type of data center. This could entail creating tools that are generic enough to work for all data centers, or focusing on specific tools the type of software running in the data center. In this talk, we present a thermal model that is flexible enough to be applicable for all data centers; we show how our model can be used to save energy. We also discuss new energy saving techniques for Hadoop clusters specifically, where we focus on very data centric implementations of Hadoop to gain a significant energy savings.
CPD Presentation Evaporative cooling in data centresColt UK
Data centres that use evaporative cooling can cut their energy bills by up to 80% compared to conventional cooling methods!
The specifications for the environmental operating conditions of IT equipment used in data centres have recently been revised, opening the way to evaporative cooling in such buildings. Evaporative cooling can provide a highly effective solution, with low installation and running costs, minimal maintenance requirements and quiet operation.
This seminar covers:
• Revisions to the specifications for the environmental operating conditions of IT equipment in data centres
• Options for cooling in a data centre
• Implementing evaporative cooling in a data centre.
[Capella Day 2019] Integrating Capella, SCADE and medini analyze, for MBSE, E...Obeo
Integrating Capella, SCADE and medini analyze, for MBSE, Embedded SW Development and Safety Analysis
Thierry Le Sergent, ANSYS
Thierry Le Sergent is Product Manager for ANSYS's SCADE Architect product. His focus is on model-based system & software engineering tools for the development of critical embedded systems.
Nowadays, we are surrounded by system of systems, autonomous systems, interconnected systems or distributed heterogeneous systems with an increase in architecture complexity.
Keeping these systems operational is a challenge as the number of potential failures which may affect their availability also increases drastically. In order to optimize availability, maintenance activities have to be designed within the design phase of the system.
Whatever the implementation choice, detection, diagnostic or prevention of failures require tests.
The goal for autonomous systems also pushes towards embedded detection and prevention capabilities and thus arguing and decision making between system engineers and maintenance engineers to share solutions in their respective activities.
In this presentation, we talk about the ability of a system designed with Capella to be tested, including in the maintenance phase. This means to interconnect several kinds of models representing different perspectives: System Design (MBSE), RAMS Analysis (Reliability, Availability, Maintainability and Safety) and Testability.
We present how a MBSE approach with Capella can be used to initiate a testability study performed with the eXpress tool from DSI International.
Introduction of SCADA, Architecture of SCADA, Software and hardware architecture, Components of a SCADA system, Functions of SCADA, Alarms and events, alarm logging, comparision between scada and DCS
Transformation organisationnelle - Plan de transformation basé sur l’architec...Miguel Iriart
Ce document présente un survol de haut niveau des principaux éléments à couvrir pour réussir la mise en œuvre d’une transformation et modernisation organisationnelle efficace. Ce survol est basé sur les bonnes pratiques afin de produire la feuille de route technologique (roadmap) alignée sur la stratégie d’affaires et sa gouvernance.
Drone Traffic Management over Mobile Networks - Attila Takacs, VTC 2017 Fall,...Attila Takacs
VTC 2017 Fall, industry track panel keynote presentation by Attila Takacs on Drone Traffic Management over Mobile Networks.
Technology Challenges in Enabling Safe Drones in Urban Environments Panel Summary—Unmanned Aerial Vehicles (UAV) are a profoundly disruptive technology poised to impact positively and substantially several industries. UAVs will reshape economic, social, security, environmental and political landscapes over the decades to come with PwC predicting that the addressable market value of drone powered solutions is over $127 billion. Current Air traffic control (ATC) systems cannot scale sufficiently to include UAV and provide command, control and communications (C3) infrastructure. NASA, with assistance from a confederation of industrial affiliates and partners, is developing an Unmanned Aerial System (UAS) Traffic Management (UTM) system to facilitate a framework for low altitude UAV operations and this is also being addressed at global level by GUTMA (Global UTM Association). It is envisioned that terrestrial cellular infrastructure will also provide coverage and C3 services to UAVs to enable beyond visual line-of-sight (BVLOS) operations. There are several challenges from a communications perspective in integrating UAVs to the terrestrial cellular network and to ensure their coexistence with terrestrial, commercial cellular users. Low altitude UAV operational complexities and traffic management, detect-and-avoid (DAA) challenges in urban and suburban environments, enabling end-to-end security, remote identification and tracking, acute differences in propagation conditions and interference patterns between terrestrial base stations and UAVs compared with terrestrial mobiles, higher mobility and velocity, stringent obligations in reliability and safety, ultra-low latency link for C3 are some of the elemental themes that require convincing answers. We discuss core principles in communications, UTM, end-to-end security and DAA to facilitate safe integration of UAVs into National Air Space.
Textual and model requirements: working together towards success
While Eclipse Capella is a model-based systems engineering environment,
it’s also clear that it enables the creation of model requirements
that complement textual requirements.
When dealing with both, textual and model requirements,
ensuring consistency and completeness are key to the final success of our systems.
A DevOps Playbook at DraftKings Built with New Relic and AWSAmazon Web Services
DraftKings is an innovative sports-tech and media entertainment platform changing the way consumers engage with their favorite sports, teams, and athletes by bringing fans closer to the game. Embracing a DevOps culture and continuous delivery allows DraftKings to consistently deliver the best possible fantasy sports experience for its customers. Learn how DraftKings leverages AWS and New Relic to support rapid application iteration and to enable teams to own responsibility for building, deploying, and reliably scaling their apps.
Data center specific thermal and energy saving techniquesXiao Qin
Abstract: Data centers are ever increasing as we become more reliant of web based transactions. The benefits of such massive computing are obvious by the speed and ease we can get most media or information. A challenge is that new large data centers introduce a level of energy consumption that the world has not seen before. The obvious energy cost of running the computers is a billion dollar problem, but there are hidden costs like running cooling systems as well. To help combat the problems of large data centers, we aim at developing solutions that can work for each type of data center. This could entail creating tools that are generic enough to work for all data centers, or focusing on specific tools the type of software running in the data center. In this talk, we present a thermal model that is flexible enough to be applicable for all data centers; we show how our model can be used to save energy. We also discuss new energy saving techniques for Hadoop clusters specifically, where we focus on very data centric implementations of Hadoop to gain a significant energy savings.