My accompanying slides to my video blog.
This episode is about open source software and open source hardware.
See video: https://www.youtube.com/watch?v=5ynE_KbDaS0
See my Video Blog: https://www.youtube.com/channel/UCtUcgFWvhZbknS5LxvfbMrw
Xu hướng mới của mảng phần cứng hiện nay trên thế giới, đó là “open source hardware”, và 1 vài giới thiệu cơ bản về sản phẩm tiêu biểu của trào lưu “open source hardware”, có tên gọi là Arduino.
Phạm Bá Thọ
My accompanying slides to my video blog.
This episode is about open source software and open source hardware.
See video: https://www.youtube.com/watch?v=5ynE_KbDaS0
See my Video Blog: https://www.youtube.com/channel/UCtUcgFWvhZbknS5LxvfbMrw
Xu hướng mới của mảng phần cứng hiện nay trên thế giới, đó là “open source hardware”, và 1 vài giới thiệu cơ bản về sản phẩm tiêu biểu của trào lưu “open source hardware”, có tên gọi là Arduino.
Phạm Bá Thọ
Open source hardware is a term slowly working its way into many new projects and efforts, but what is it? There are a few definitions, some of which come from “open source software,” which is usually considered software’s “source code under a license (or arrangement such as the public domain) that permits users to study, change, and improve the software, and to redistribute it in modified or unmodified form.” So how does this translate to hardware? This session will focus on electronic hardware, the layers they can be divided into, different document types, licensing concerns, and a show-and-tell of hardware. Because of the openness of the movement it is increasingly being tied to Web 2.0 services.
Open Source Hardware and Libre SiliconDrew Fustini
My Open Source Hardware and Libre Silicon talk for Penguicon 2017.
Open Source Hardware (OSHW) designs are made publicly available so that anyone can study, modify, distribute, make or sell designs or hardware based on that design. This talk will explore the shared values with Open Source software and the specifics of publishing a hardware project under an Open Source license.
It will include examples of Linux running on OSHW with projects like BeagleBone, CHIP, MinnowBoard and more. The role of the Open Source Hardware Association and annual Open Hardware Summit will also be discussed, along with important OSHW projects for scientific researchers.
There are exciting new developments within the last year for OSHW at the chip level. Projects like lowRISC, J-Core, OnChip and SiFive are working to produce true Open Source silicon processors. The FOSSi Foundation and LibreCores are helping to organize and promote this exciting new ecosystem.
Linux on Open Source Hardware with Open Source chip design (36c3)Drew Fustini
Want to run Linux on open hardware? This talk will explore Open Source Hardware projects capable of that task, and explore how RISC-V and free software FPGA projects can be leveraged to create libre systems.
Presented at the 36th Chaos Communication Congress (36c3) in Leipzig, Germany:
https://fahrplan.events.ccc.de/congress/2019/Fahrplan/events/10549.html
Video: https://media.ccc.de/v/36c3-10549-linux_on_open_source_hardware_with_open_source_chip_design
YouTube: https://www.youtube.com/watch?v=mnOBTD9dgsg
Embedded Recipes 2019 - Linux on Open Source Hardware and Libre SiliconAnne Nicolas
This talk will explore Open Source Hardware projects relevant to Linux, including boards like BeagleBone, Olimex OLinuXino, Giant board and more. Looking at the benefits and challenges of designing Open Source Hardware for a Linux system, along with BeagleBoard.org’s experience of working with community, manufacturers, and distributors to create an Open Source Hardware platform. In closing also looking at the future, Libre Silicon like RISC-V designs, and where this might take Linux.
Drew Fustini
Introduction to Open Source Hardware (OSHW) including: the philosophy, best practices, CERN Open Hardware License, Open Hardware Summit, Open Source Hardware Association (OSHWA), Open Source Hardware Certification Program, OSHW Products, Linux on OSHW, and OSHW in Science.
L'open hardware dans l'électronique (et au delà...)Robert Viseur
Depuis les années quatre-vingt, l’open source se développe dans le domaine logiciel avec des succès répétés et illustrés par des communautés populaires comme Linux, Mozilla ou Apache. Les pratiques open source en matière de licences, de modèles d’affaires et de méthodes de développement ont progressivement essaimé vers d’autres domaines que le logiciel, donnant naissance à l’open data, l’open content, l’open hardware ou encore l’open cloud. Les succès récents, dans le domaine de l’électronique, de familles de produits comme Arduino ou Elphel, démontrent que la révolution qui s’est opérée dans le domaine logiciel s’apprête aujourd’hui à se produire dans le celui du matériel. L’exposé proposera dès lors de faire le point sur les types de projets et les projets actuellement actifs dans le domaine de l’open hardware (OpenCollector, OpenCores, Arduino, BeagleBoard, NanoNote,…). Il inclura une présentation des moyens de protection généralement utilisés (Creative Commons, GPL, LGPL,…) ainsi que des entreprises actuellement actives dans ce secteur en développement (Arduino, Gaisler, Elphel,…). En pratique, si l’open hardware est surtout connu pour ses applications dans le domaine électronique, il englobe également des objets de la vie quotidienne et concerne petit à petit des biens inattendus comme les automobiles. Le secteur automobile voit ainsi les pratiques de co-création se développer depuis quelques années, avec des initiatives telles que le concours de design Peugeot ou la plate-forme participative dédiée à la Fiat Mio. Les pratiques open source s’y développent également, avec des sociétés ou projets comme OSVehicule, Local Motors ou Wikispeed, mêlant création de “Commons”, utilisation de technologies open hardware, exploitation d’outils de fabrication numérique, mise en œuvre de méthodologies Agile et adoption d’architectures modulaires. Cette présentation fera également le point sur ces tendances émergentes et tentera d’en dresser les perspectives.
Kotlin Basics & Introduction to Jetpack Compose.pptxtakshilkunadia
In our fast and ever-changing world of tech, creating a great UI is not just indispensable but also an obligation as a developer. A great UI makes the whole experience of accessing the products/services an absolute pleasure.
Hour 1: Basics of Kotlin
Hour 2: Introduction to Jetpack Compose Development Kit
Open source hardware is a term slowly working its way into many new projects and efforts, but what is it? There are a few definitions, some of which come from “open source software,” which is usually considered software’s “source code under a license (or arrangement such as the public domain) that permits users to study, change, and improve the software, and to redistribute it in modified or unmodified form.” So how does this translate to hardware? This session will focus on electronic hardware, the layers they can be divided into, different document types, licensing concerns, and a show-and-tell of hardware. Because of the openness of the movement it is increasingly being tied to Web 2.0 services.
Open Source Hardware and Libre SiliconDrew Fustini
My Open Source Hardware and Libre Silicon talk for Penguicon 2017.
Open Source Hardware (OSHW) designs are made publicly available so that anyone can study, modify, distribute, make or sell designs or hardware based on that design. This talk will explore the shared values with Open Source software and the specifics of publishing a hardware project under an Open Source license.
It will include examples of Linux running on OSHW with projects like BeagleBone, CHIP, MinnowBoard and more. The role of the Open Source Hardware Association and annual Open Hardware Summit will also be discussed, along with important OSHW projects for scientific researchers.
There are exciting new developments within the last year for OSHW at the chip level. Projects like lowRISC, J-Core, OnChip and SiFive are working to produce true Open Source silicon processors. The FOSSi Foundation and LibreCores are helping to organize and promote this exciting new ecosystem.
Linux on Open Source Hardware with Open Source chip design (36c3)Drew Fustini
Want to run Linux on open hardware? This talk will explore Open Source Hardware projects capable of that task, and explore how RISC-V and free software FPGA projects can be leveraged to create libre systems.
Presented at the 36th Chaos Communication Congress (36c3) in Leipzig, Germany:
https://fahrplan.events.ccc.de/congress/2019/Fahrplan/events/10549.html
Video: https://media.ccc.de/v/36c3-10549-linux_on_open_source_hardware_with_open_source_chip_design
YouTube: https://www.youtube.com/watch?v=mnOBTD9dgsg
Embedded Recipes 2019 - Linux on Open Source Hardware and Libre SiliconAnne Nicolas
This talk will explore Open Source Hardware projects relevant to Linux, including boards like BeagleBone, Olimex OLinuXino, Giant board and more. Looking at the benefits and challenges of designing Open Source Hardware for a Linux system, along with BeagleBoard.org’s experience of working with community, manufacturers, and distributors to create an Open Source Hardware platform. In closing also looking at the future, Libre Silicon like RISC-V designs, and where this might take Linux.
Drew Fustini
Introduction to Open Source Hardware (OSHW) including: the philosophy, best practices, CERN Open Hardware License, Open Hardware Summit, Open Source Hardware Association (OSHWA), Open Source Hardware Certification Program, OSHW Products, Linux on OSHW, and OSHW in Science.
L'open hardware dans l'électronique (et au delà...)Robert Viseur
Depuis les années quatre-vingt, l’open source se développe dans le domaine logiciel avec des succès répétés et illustrés par des communautés populaires comme Linux, Mozilla ou Apache. Les pratiques open source en matière de licences, de modèles d’affaires et de méthodes de développement ont progressivement essaimé vers d’autres domaines que le logiciel, donnant naissance à l’open data, l’open content, l’open hardware ou encore l’open cloud. Les succès récents, dans le domaine de l’électronique, de familles de produits comme Arduino ou Elphel, démontrent que la révolution qui s’est opérée dans le domaine logiciel s’apprête aujourd’hui à se produire dans le celui du matériel. L’exposé proposera dès lors de faire le point sur les types de projets et les projets actuellement actifs dans le domaine de l’open hardware (OpenCollector, OpenCores, Arduino, BeagleBoard, NanoNote,…). Il inclura une présentation des moyens de protection généralement utilisés (Creative Commons, GPL, LGPL,…) ainsi que des entreprises actuellement actives dans ce secteur en développement (Arduino, Gaisler, Elphel,…). En pratique, si l’open hardware est surtout connu pour ses applications dans le domaine électronique, il englobe également des objets de la vie quotidienne et concerne petit à petit des biens inattendus comme les automobiles. Le secteur automobile voit ainsi les pratiques de co-création se développer depuis quelques années, avec des initiatives telles que le concours de design Peugeot ou la plate-forme participative dédiée à la Fiat Mio. Les pratiques open source s’y développent également, avec des sociétés ou projets comme OSVehicule, Local Motors ou Wikispeed, mêlant création de “Commons”, utilisation de technologies open hardware, exploitation d’outils de fabrication numérique, mise en œuvre de méthodologies Agile et adoption d’architectures modulaires. Cette présentation fera également le point sur ces tendances émergentes et tentera d’en dresser les perspectives.
Kotlin Basics & Introduction to Jetpack Compose.pptxtakshilkunadia
In our fast and ever-changing world of tech, creating a great UI is not just indispensable but also an obligation as a developer. A great UI makes the whole experience of accessing the products/services an absolute pleasure.
Hour 1: Basics of Kotlin
Hour 2: Introduction to Jetpack Compose Development Kit
3. (OSHW) consists of physical artifacts of
technology designed and offered in the same
manner as free and open-source software
(FOSS)
4. Open-source hardware is part of the open-
source culture movement and applies a like
concept to a variety of components. The term
usually means that information about the
hardware is easily discerned
5. Open-source hardware is part of the open-
source culture movement and applies a like
concept to a variety of components. The term
usually means that information about the
hardware is easily discerned
(HW design and software)
6. Open-source hardware is part of the open-
source culture movement and applies a like
concept to a variety of components. The term
usually means that information about the
hardware is easily discerned
(HW design and software)
7. the rise of reconfigurable programmable logic
devices, sharing of logic designs has been a
form of open source hardware
8. the rise of reconfigurable programmable logic
devices, sharing of logic designs has been a
form of open source hardware
10. Rather than creating a new license, some open
source hardware projects simply use existing,
free and open source software licenses
11.
Opencores prefers the LGPL
Open Hardware Foundation promotes
"copyleft"
Open Graphics Project uses a variety of
licenses, including the MIT license, GPL, and
a proprietary license
12.
Opencores prefers the LGPL
Open Hardware Foundation promotes
"copyleft"
Open Graphics Project uses a variety of
licenses, including the MIT license, GPL, and
a proprietary license
14.
a copyright license may control the distribution
of the source code or design documents
a patent license may control the use and
manufacturing of the physical device built from
the design documents
15.
a copyright license may control the distribution
of the source code or design documents
a patent license may control the use and
manufacturing of the physical device built from
the design documents
16. TAPR Open Hardware License
"... those who benefit from an OHL design may
not bring lawsuits claiming that design
infringes their patents or other intellectual
property."
17. TAPR Open Hardware License
"... those who benefit from an OHL design may
not bring lawsuits claiming that design
infringes their patents or other intellectual
property."
19.
Hardware results in tangible outputs, which
cost money to prototype and manufacture.
Open Source Hardware Central Bank
Vendors sponsoring
KiCAD
20.
Sparkfun electronics
Itead Studio
Olimex
21.
Some Example projects
RepRap
Arduino
BeagleBone/Board
Zoybar (guitar kit)
OLINUXINO
22.
Some Example projects
RepRap
Arduino
BeagleBone/Board
Zoybar (guitar kit)
OLINUXINO
23.
The Uzebox is a retro-minimalist open source
video game console design.