�ݺ�ߣshows by User: EugenioVillar

�ݺ�ߣshows by User: EugenioVillar / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: EugenioVillar / Wed, 08 Jun 2022 14:07:33 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: EugenioVillar Villar presentation.pdf /slideshow/villar-presentationpdf/251945627 villarpresentation-220608140733-9a6230f5
In this presentation, latest results of our research activity in the ESCEL Comp4Drones project is presented. The application of S3D to the modeling and performance analysis of drone-based services is described]]>
In this presentation, latest results of our research activity in the ESCEL Comp4Drones project is presented. The application of S3D to the modeling and performance analysis of drone-based services is described]]> Wed, 08 Jun 2022 14:07:33 GMT /slideshow/villar-presentationpdf/251945627 EugenioVillar@slideshare.net(EugenioVillar) Villar presentation.pdf EugenioVillar In this presentation, latest results of our research activity in the ESCEL Comp4Drones project is presented. The application of S3D to the modeling and performance analysis of drone-based services is described <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/villarpresentation-220608140733-9a6230f5-thumbnail.jpg?width=120&height=120&fit=bounds" /> In this presentation, latest results of our research activity in the ESCEL Comp4Drones project is presented. The application of S3D to the modeling and performance analysis of drone-based services is described

Villar presentation.pdf from Eugenio Villar

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0 Model-Driven Design of CPSoSs: Application to drone-based services /slideshow/professor-249463225/249463225 villarpresentation-210623103502
Unmanned Aerial Vehicles (UAV) applications are continuously growing with new services and business models. Services are and will continue to be the largest segment of the drone industry, but the software is the fastest growing. If today, drone-based services are quite simple, such as personal amusement, races, photography and police surveillance, their complexity is increasing (public spectacles using swarms of lighting drones as an example) explaining the fast grow in application software. From a limited number of drones managed by human pilots, the tendency is towards services based on smart, autonomous drones able to follow a mission and react satisfactorily to unexpected events. In many cases, the service will require an intelligent cooperation among several, even many drones in a swarm. Drones are Cyber-Physical Systems in which the interaction of the electronics running the embedded SW and the physical environment is crucial to understand the behavior and performance of the whole service to be provided. In this lecture, Model-Driven Design for complex services based on drones will be proposed. The corresponding system engineering methodology discussed. From the initial service model, its simulation, performance analysis, design-space exploration and finally, embedded SW synthesis, presented. The talk will finish with a relevant use case where the proposed technology will be exercised.]]>
Unmanned Aerial Vehicles (UAV) applications are continuously growing with new services and business models. Services are and will continue to be the largest segment of the drone industry, but the software is the fastest growing. If today, drone-based services are quite simple, such as personal amusement, races, photography and police surveillance, their complexity is increasing (public spectacles using swarms of lighting drones as an example) explaining the fast grow in application software. From a limited number of drones managed by human pilots, the tendency is towards services based on smart, autonomous drones able to follow a mission and react satisfactorily to unexpected events. In many cases, the service will require an intelligent cooperation among several, even many drones in a swarm. Drones are Cyber-Physical Systems in which the interaction of the electronics running the embedded SW and the physical environment is crucial to understand the behavior and performance of the whole service to be provided. In this lecture, Model-Driven Design for complex services based on drones will be proposed. The corresponding system engineering methodology discussed. From the initial service model, its simulation, performance analysis, design-space exploration and finally, embedded SW synthesis, presented. The talk will finish with a relevant use case where the proposed technology will be exercised.]]> Wed, 23 Jun 2021 10:35:02 GMT /slideshow/professor-249463225/249463225 EugenioVillar@slideshare.net(EugenioVillar) Model-Driven Design of CPSoSs: Application to drone-based services EugenioVillar Unmanned Aerial Vehicles (UAV) applications are continuously growing with new services and business models. Services are and will continue to be the largest segment of the drone industry, but the software is the fastest growing. If today, drone-based services are quite simple, such as personal amusement, races, photography and police surveillance, their complexity is increasing (public spectacles using swarms of lighting drones as an example) explaining the fast grow in application software. From a limited number of drones managed by human pilots, the tendency is towards services based on smart, autonomous drones able to follow a mission and react satisfactorily to unexpected events. In many cases, the service will require an intelligent cooperation among several, even many drones in a swarm. Drones are Cyber-Physical Systems in which the interaction of the electronics running the embedded SW and the physical environment is crucial to understand the behavior and performance of the whole service to be provided. In this lecture, Model-Driven Design for complex services based on drones will be proposed. The corresponding system engineering methodology discussed. From the initial service model, its simulation, performance analysis, design-space exploration and finally, embedded SW synthesis, presented. The talk will finish with a relevant use case where the proposed technology will be exercised. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/villarpresentation-210623103502-thumbnail.jpg?width=120&height=120&fit=bounds" /> Unmanned Aerial Vehicles (UAV) applications are continuously growing with new services and business models. Services are and will continue to be the largest segment of the drone industry, but the software is the fastest growing. If today, drone-based services are quite simple, such as personal amusement, races, photography and police surveillance, their complexity is increasing (public spectacles using swarms of lighting drones as an example) explaining the fast grow in application software. From a limited number of drones managed by human pilots, the tendency is towards services based on smart, autonomous drones able to follow a mission and react satisfactorily to unexpected events. In many cases, the service will require an intelligent cooperation among several, even many drones in a swarm. Drones are Cyber-Physical Systems in which the interaction of the electronics running the embedded SW and the physical environment is crucial to understand the behavior and performance of the whole service to be provided. In this lecture, Model-Driven Design for complex services based on drones will be proposed. The corresponding system engineering methodology discussed. From the initial service model, its simulation, performance analysis, design-space exploration and finally, embedded SW synthesis, presented. The talk will finish with a relevant use case where the proposed technology will be exercised.

Model-Driven Design of CPSoSs: Application to drone-based services from Eugenio Villar

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0 Megamodeling of Complex, Distributed, Heterogeneous CPS Systems /slideshow/megamodeling-of-complex-distributed-heterogeneous-cps-systems/149178661 villarpresentation-190610183448
�ݺ�ߣs of the lecture given at the Summer School on Cyber-Physical Systems and Internet-of-Things - CPS&IoT’2019, held in Budva, Montenegro, June 10-14, 2019]]>
�ݺ�ߣs of the lecture given at the Summer School on Cyber-Physical Systems and Internet-of-Things - CPS&IoT’2019, held in Budva, Montenegro, June 10-14, 2019]]> Mon, 10 Jun 2019 18:34:48 GMT /slideshow/megamodeling-of-complex-distributed-heterogeneous-cps-systems/149178661 EugenioVillar@slideshare.net(EugenioVillar) Megamodeling of Complex, Distributed, Heterogeneous CPS Systems EugenioVillar �ݺ�ߣs of the lecture given at the Summer School on Cyber-Physical Systems and Internet-of-Things - CPS&IoT’2019, held in Budva, Montenegro, June 10-14, 2019 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/villarpresentation-190610183448-thumbnail.jpg?width=120&height=120&fit=bounds" /> �ݺ�ߣs of the lecture given at the Summer School on Cyber-Physical Systems and Internet-of-Things - CPS&IoT’2019, held in Budva, Montenegro, June 10-14, 2019

Megamodeling of Complex, Distributed, Heterogeneous CPS Systems from Eugenio Villar

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0 Model-Driven Analysis&Design of Distributed, Heterogeneous Systems /slideshow/modeldriven-analysisdesign-of-distributed-heterogeneous-systems/102285690 villarpresentation-180613101211
Presentation to the consortium of the ECSEL Fitoptivis project of the Single-Source methodology under development in the ECSEL MegaMart project towards the modeling&design of complex, distributed and heterogeneous systems]]>
Presentation to the consortium of the ECSEL Fitoptivis project of the Single-Source methodology under development in the ECSEL MegaMart project towards the modeling&design of complex, distributed and heterogeneous systems]]> Wed, 13 Jun 2018 10:12:11 GMT /slideshow/modeldriven-analysisdesign-of-distributed-heterogeneous-systems/102285690 EugenioVillar@slideshare.net(EugenioVillar) Model-Driven Analysis&Design of Distributed, Heterogeneous Systems EugenioVillar Presentation to the consortium of the ECSEL Fitoptivis project of the Single-Source methodology under development in the ECSEL MegaMart project towards the modeling&design of complex, distributed and heterogeneous systems <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/villarpresentation-180613101211-thumbnail.jpg?width=120&height=120&fit=bounds" /> Presentation to the consortium of the ECSEL Fitoptivis project of the Single-Source methodology under development in the ECSEL MegaMart project towards the modeling&design of complex, distributed and heterogeneous systems

Model-Driven Analysis&Design of Distributed, Heterogeneous Systems from Eugenio Villar

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0 Tutorial at the European Nanoelectronics Applications, Design & Technology Conference 2016 /EugenioVillar/tutorial-at-the-european-nanoelectronics-applications-design-technology-conference-2016 evtutorial-160704101027
Since its statement more that 50 years ago, Moore's Law has enabled to produce new electronic products with unexpected capabilities. Another consequence of Moore's Law affects the business model. All the electronic products, the electronic components in non-electronic manufactured products and services become obsolete in a short time as a new technology node is available able to produce devices with higher performance at the same cost. This business model would change in the short time as Moore's Law reaches an end. If Moore's Law changed the world, its end may have an important effect. Cyber-Physical Systems of Systems (CPSoS) will dominate the electronics century becoming pervasive in all the aspects of our daily lives. For the first time, the underlying technology will be stable with only incremental improvements in time. This may make it accessible to many new players looking for a competitive advantage in silicon. Investment would move from the initial stages of the value chain to those closer to the final applications. In this new scenario, modeling, analysis and design of electronic systems will have to evolve. The focus should be put on the device, not isolated but as a component in a complex, heterogeneous, distributed network of many other computing devices. Services will be offered by the interaction of functional components deployed in many distributed computing resources of many kind, from small motes, embedded systems and smart-phones to large data centers and even High-Performance Computing (HPC) facilities. Electronic design in this new context should address effectively new requirements. Among them, scalability, reusability, human interaction, easy modeling, fast design-space exploration and optimization, powerful functional and extra-functional verification, efficient handling of mixed-criticality and security, etc. An essential aspect will be the availability of powerful, platform independent SW and HW synthesis tools able to produce automatically efficient implementations of the system model on many different computing resources. In this presentation, the effect of this dramatic change in system design will be discussed. A single-source approach supported by powerful design tools will be proposed. Current results from the European FP7 ConTrex project will be described.]]>
Since its statement more that 50 years ago, Moore's Law has enabled to produce new electronic products with unexpected capabilities. Another consequence of Moore's Law affects the business model. All the electronic products, the electronic components in non-electronic manufactured products and services become obsolete in a short time as a new technology node is available able to produce devices with higher performance at the same cost. This business model would change in the short time as Moore's Law reaches an end. If Moore's Law changed the world, its end may have an important effect. Cyber-Physical Systems of Systems (CPSoS) will dominate the electronics century becoming pervasive in all the aspects of our daily lives. For the first time, the underlying technology will be stable with only incremental improvements in time. This may make it accessible to many new players looking for a competitive advantage in silicon. Investment would move from the initial stages of the value chain to those closer to the final applications. In this new scenario, modeling, analysis and design of electronic systems will have to evolve. The focus should be put on the device, not isolated but as a component in a complex, heterogeneous, distributed network of many other computing devices. Services will be offered by the interaction of functional components deployed in many distributed computing resources of many kind, from small motes, embedded systems and smart-phones to large data centers and even High-Performance Computing (HPC) facilities. Electronic design in this new context should address effectively new requirements. Among them, scalability, reusability, human interaction, easy modeling, fast design-space exploration and optimization, powerful functional and extra-functional verification, efficient handling of mixed-criticality and security, etc. An essential aspect will be the availability of powerful, platform independent SW and HW synthesis tools able to produce automatically efficient implementations of the system model on many different computing resources. In this presentation, the effect of this dramatic change in system design will be discussed. A single-source approach supported by powerful design tools will be proposed. Current results from the European FP7 ConTrex project will be described.]]> Mon, 04 Jul 2016 10:10:27 GMT /EugenioVillar/tutorial-at-the-european-nanoelectronics-applications-design-technology-conference-2016 EugenioVillar@slideshare.net(EugenioVillar) Tutorial at the European Nanoelectronics Applications, Design & Technology Conference 2016 EugenioVillar Since its statement more that 50 years ago, Moore's Law has enabled to produce new electronic products with unexpected capabilities. Another consequence of Moore's Law affects the business model. All the electronic products, the electronic components in non-electronic manufactured products and services become obsolete in a short time as a new technology node is available able to produce devices with higher performance at the same cost. This business model would change in the short time as Moore's Law reaches an end. If Moore's Law changed the world, its end may have an important effect. Cyber-Physical Systems of Systems (CPSoS) will dominate the electronics century becoming pervasive in all the aspects of our daily lives. For the first time, the underlying technology will be stable with only incremental improvements in time. This may make it accessible to many new players looking for a competitive advantage in silicon. Investment would move from the initial stages of the value chain to those closer to the final applications. In this new scenario, modeling, analysis and design of electronic systems will have to evolve. The focus should be put on the device, not isolated but as a component in a complex, heterogeneous, distributed network of many other computing devices. Services will be offered by the interaction of functional components deployed in many distributed computing resources of many kind, from small motes, embedded systems and smart-phones to large data centers and even High-Performance Computing (HPC) facilities. Electronic design in this new context should address effectively new requirements. Among them, scalability, reusability, human interaction, easy modeling, fast design-space exploration and optimization, powerful functional and extra-functional verification, efficient handling of mixed-criticality and security, etc. An essential aspect will be the availability of powerful, platform independent SW and HW synthesis tools able to produce automatically efficient implementations of the system model on many different computing resources. In this presentation, the effect of this dramatic change in system design will be discussed. A single-source approach supported by powerful design tools will be proposed. Current results from the European FP7 ConTrex project will be described. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/evtutorial-160704101027-thumbnail.jpg?width=120&height=120&fit=bounds" /> Since its statement more that 50 years ago, Moore's Law has enabled to produce new electronic products with unexpected capabilities. Another consequence of Moore's Law affects the business model. All the electronic products, the electronic components in non-electronic manufactured products and services become obsolete in a short time as a new technology node is available able to produce devices with higher performance at the same cost. This business model would change in the short time as Moore's Law reaches an end. If Moore's Law changed the world, its end may have an important effect. Cyber-Physical Systems of Systems (CPSoS) will dominate the electronics century becoming pervasive in all the aspects of our daily lives. For the first time, the underlying technology will be stable with only incremental improvements in time. This may make it accessible to many new players looking for a competitive advantage in silicon. Investment would move from the initial stages of the value chain to those closer to the final applications. In this new scenario, modeling, analysis and design of electronic systems will have to evolve. The focus should be put on the device, not isolated but as a component in a complex, heterogeneous, distributed network of many other computing devices. Services will be offered by the interaction of functional components deployed in many distributed computing resources of many kind, from small motes, embedded systems and smart-phones to large data centers and even High-Performance Computing (HPC) facilities. Electronic design in this new context should address effectively new requirements. Among them, scalability, reusability, human interaction, easy modeling, fast design-space exploration and optimization, powerful functional and extra-functional verification, efficient handling of mixed-criticality and security, etc. An essential aspect will be the availability of powerful, platform independent SW and HW synthesis tools able to produce automatically efficient implementations of the system model on many different computing resources. In this presentation, the effect of this dramatic change in system design will be discussed. A single-source approach supported by powerful design tools will be proposed. Current results from the European FP7 ConTrex project will be described.

Tutorial at the European Nanoelectronics Applications, Design & Technology Conference 2016 from Eugenio Villar

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0 Single-Source approach to the design of HW/SW Embedded Systems /slideshow/presentacin-37123144/37123144 presentacin-140718070630-phpapp02
In this presentation UML/MARTE is proposed as the language for a singe-source approach to the design of complex, heterogeneous, HW/SW embedded systems. The language improves reusability and from the model of the system all the design tasks such as architectural mapping, simulation, performance analysis, verification and SW synthesis can be supported.]]>
In this presentation UML/MARTE is proposed as the language for a singe-source approach to the design of complex, heterogeneous, HW/SW embedded systems. The language improves reusability and from the model of the system all the design tasks such as architectural mapping, simulation, performance analysis, verification and SW synthesis can be supported.]]> Fri, 18 Jul 2014 07:06:30 GMT /slideshow/presentacin-37123144/37123144 EugenioVillar@slideshare.net(EugenioVillar) Single-Source approach to the design of HW/SW Embedded Systems EugenioVillar In this presentation UML/MARTE is proposed as the language for a singe-source approach to the design of complex, heterogeneous, HW/SW embedded systems. The language improves reusability and from the model of the system all the design tasks such as architectural mapping, simulation, performance analysis, verification and SW synthesis can be supported. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/presentacin-140718070630-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> In this presentation UML/MARTE is proposed as the language for a singe-source approach to the design of complex, heterogeneous, HW/SW embedded systems. The language improves reusability and from the model of the system all the design tasks such as architectural mapping, simulation, performance analysis, verification and SW synthesis can be supported.

Single-Source approach to the design of HW/SW Embedded Systems from Eugenio Villar

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0 SW Synthesis from UML/MARTE /slideshow/uml-sw-villar/30530877 uml-sw-villar-140128063823-phpapp01
System-level specifications are the key entry point to many design flows, as well as the golden reference model throughout the design lifecycle. As such, their quality dramatically impacts the potential quality of the designed product. Specifications have to expose sufficient parallelism and orthogonally capture computation and communication to allow exploring a wide range of target platforms. On top of functional accuracy to capture the designer’s intent, they have to be expressive enough to allow extracting performance requirements and describe system-wide constraints (e.g. application quality metrics). In this presentation at the ASP-DAC 2014 Tutorial "High-Level Specifications to Cope With Design Complexity", organized by Prof. Gunar Schirner, opportunities and methods to describe, simulate and automatically generate the SW stacks on heterogeneous platforms using UML/MARTE are highlighted.]]>
System-level specifications are the key entry point to many design flows, as well as the golden reference model throughout the design lifecycle. As such, their quality dramatically impacts the potential quality of the designed product. Specifications have to expose sufficient parallelism and orthogonally capture computation and communication to allow exploring a wide range of target platforms. On top of functional accuracy to capture the designer’s intent, they have to be expressive enough to allow extracting performance requirements and describe system-wide constraints (e.g. application quality metrics). In this presentation at the ASP-DAC 2014 Tutorial "High-Level Specifications to Cope With Design Complexity", organized by Prof. Gunar Schirner, opportunities and methods to describe, simulate and automatically generate the SW stacks on heterogeneous platforms using UML/MARTE are highlighted.]]> Tue, 28 Jan 2014 06:38:23 GMT /slideshow/uml-sw-villar/30530877 EugenioVillar@slideshare.net(EugenioVillar) SW Synthesis from UML/MARTE EugenioVillar System-level specifications are the key entry point to many design flows, as well as the golden reference model throughout the design lifecycle. As such, their quality dramatically impacts the potential quality of the designed product. Specifications have to expose sufficient parallelism and orthogonally capture computation and communication to allow exploring a wide range of target platforms. On top of functional accuracy to capture the designer’s intent, they have to be expressive enough to allow extracting performance requirements and describe system-wide constraints (e.g. application quality metrics). In this presentation at the ASP-DAC 2014 Tutorial "High-Level Specifications to Cope With Design Complexity", organized by Prof. Gunar Schirner, opportunities and methods to describe, simulate and automatically generate the SW stacks on heterogeneous platforms using UML/MARTE are highlighted. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/uml-sw-villar-140128063823-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> System-level specifications are the key entry point to many design flows, as well as the golden reference model throughout the design lifecycle. As such, their quality dramatically impacts the potential quality of the designed product. Specifications have to expose sufficient parallelism and orthogonally capture computation and communication to allow exploring a wide range of target platforms. On top of functional accuracy to capture the designer’s intent, they have to be expressive enough to allow extracting performance requirements and describe system-wide constraints (e.g. application quality metrics). In this presentation at the ASP-DAC 2014 Tutorial "High-Level Specifications to Cope With Design Complexity", organized by Prof. Gunar Schirner, opportunities and methods to describe, simulate and automatically generate the SW stacks on heterogeneous platforms using UML/MARTE are highlighted.

SW Synthesis from UML/MARTE from Eugenio Villar

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0 https://cdn.slidesharecdn.com/profile-photo-EugenioVillar-48x48.jpg?cb=1654697014 http://www.teisa.unican.es/gim https://cdn.slidesharecdn.com/ss_thumbnails/villarpresentation-220608140733-9a6230f5-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/villar-presentationpdf/251945627 Villar presentation.pdf https://cdn.slidesharecdn.com/ss_thumbnails/villarpresentation-210623103502-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/professor-249463225/249463225 Model-Driven Design of... https://cdn.slidesharecdn.com/ss_thumbnails/villarpresentation-190610183448-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/megamodeling-of-complex-distributed-heterogeneous-cps-systems/149178661 Megamodeling of Comple...