These slides use concepts from my (Jeff Funk) course entitled Biz Models for Hi-Tech Products to analyze the business model for Transparent and Flexible Displays. Transparent displays provide new forms of value to users particularly in the form of better augmented reality. They also make bi-direction games and other forms of communication and entertainment possible. They can be used in tablet computers, mobile phones, and other electronic devices by tech junkies and other potential users. These slides also explain other aspects of the business model such as the method of value capture, scope of activities, and method of strategic control.
Technology advances in flexible displays and substratesSalman Khaja
Flexible displays can be produced on plastic or other flexible materials and attached to surfaces in various shapes. AMOLED displays are well-suited for flexible displays as they do not require backlighting and can be produced using roll-to-roll manufacturing. The FlexUp technology allows for high temperature processing of flexible displays on glass carriers before debonding and transferring the circuitry onto flexible plastic substrates. Passivation layers and encapsulation techniques help protect flexible AMOLEDs from stress and moisture during bending. i2R e-paper uses liquid crystals and pigment layers that reflect light to display images without power by mimicking the appearance of ordinary paper.
Flexible displays are essentially very thin display screens that can be printed onto flexible or stretchable material and then attached to other surfaces or produced in a variety of shapes
I was presented this ppt in college .........
A durable and flexible display with low-power consumption, high-contrast ratio, has been a technical challenge for nowadays. They have to be lightweight, rugged, and in some cases, conformal, wearable, rollable and unbreakable. The recent successful integration of flexible display technologies and the traditional web-based processing and/or inkjet technologies has opened up the possibility of low cost and high throughput roll-to-roll manufacturing and has shown the potential to replace the paper used today.
A flexible display cannot rely on a normal layer of glass as used in displays common at the time since glass does not fulfill the criteria of flexibility. Instead of glass it is possible to build displays on metal foil and a variety of plastics, each of which pose many difficult issues waiting to be resolved. For example, a plastic substrate replacing glass would need to over some properties of glass, i.e. clarity, dimensional stability, thermal stability, barrier, solvent resistance and a low coefficient of thermal expansion coupled with a smooth surface. No plastic isomers have all these properties, yet, so any plastic-based substrate will almost certainly be a multilayer composite structure.
This technical seminar discusses electronic paper (e-paper) and flexible displays. E-paper is a display that is flexible and can be bent like paper. It has a wide viewing angle and low power consumption. E-paper was first developed in the 1970s and works by having black and white particles move to the top or bottom of capsules to create an image. Flexible displays allow users to interact with devices by twisting, bending, and folding. E-paper has applications in electronic shelf labels, e-books, and could replace newspapers and books in the future. The seminar covers the history, construction, functionality, advantages, and applications of e-paper and flexible displays.
This document provides an overview of OLED (organic light-emitting diode) technology. It discusses how OLEDs work using organic compounds to emit light, their advantages over other display technologies like thinner/lighter/more flexible designs and low power consumption. The document also covers OLED applications, challenges like short lifetimes, and conclusions that OLEDs will replace LCDs given flexibility enabling new applications and providing an environmentally friendly display option.
Flexible displays have been technically challenging to develop due to requirements for durability, flexibility, low power consumption, and high contrast ratio. Earlier flexible displays relied on plastic or metal foil substrates instead of glass, which posed issues to resolve regarding properties like clarity, stability, and smooth surfaces. Recent integration of flexible display technologies with traditional web processing and inkjet technologies has enabled low-cost, high-throughput manufacturing using roll-to-roll processes and has the potential to replace paper.
OLED (Organic Light Emitting Diode) is a light emitting diode with an electroluminescent layer made of organic compounds that emits light when electric current is applied. OLEDs were first developed in the 1950s in France but it was not until the 1980s that they were made with thin organic layers. OLEDs have an anode, organic layers including a conducting layer and emissive layer, and a cathode. They can be passive with perpendicular strips or active with full cathode/anode layers. OLEDs are used in televisions, phones, watches, laptops and more. While offering advantages like flexibility, thinness and high contrast, they also face challenges such as short blue
These slides use concepts from my (Jeff Funk) course entitled Biz Models for Hi-Tech Products to analyze the business model for Transparent and Flexible Displays. Transparent displays provide new forms of value to users particularly in the form of better augmented reality. They also make bi-direction games and other forms of communication and entertainment possible. They can be used in tablet computers, mobile phones, and other electronic devices by tech junkies and other potential users. These slides also explain other aspects of the business model such as the method of value capture, scope of activities, and method of strategic control.
Technology advances in flexible displays and substratesSalman Khaja
Flexible displays can be produced on plastic or other flexible materials and attached to surfaces in various shapes. AMOLED displays are well-suited for flexible displays as they do not require backlighting and can be produced using roll-to-roll manufacturing. The FlexUp technology allows for high temperature processing of flexible displays on glass carriers before debonding and transferring the circuitry onto flexible plastic substrates. Passivation layers and encapsulation techniques help protect flexible AMOLEDs from stress and moisture during bending. i2R e-paper uses liquid crystals and pigment layers that reflect light to display images without power by mimicking the appearance of ordinary paper.
Flexible displays are essentially very thin display screens that can be printed onto flexible or stretchable material and then attached to other surfaces or produced in a variety of shapes
I was presented this ppt in college .........
A durable and flexible display with low-power consumption, high-contrast ratio, has been a technical challenge for nowadays. They have to be lightweight, rugged, and in some cases, conformal, wearable, rollable and unbreakable. The recent successful integration of flexible display technologies and the traditional web-based processing and/or inkjet technologies has opened up the possibility of low cost and high throughput roll-to-roll manufacturing and has shown the potential to replace the paper used today.
A flexible display cannot rely on a normal layer of glass as used in displays common at the time since glass does not fulfill the criteria of flexibility. Instead of glass it is possible to build displays on metal foil and a variety of plastics, each of which pose many difficult issues waiting to be resolved. For example, a plastic substrate replacing glass would need to over some properties of glass, i.e. clarity, dimensional stability, thermal stability, barrier, solvent resistance and a low coefficient of thermal expansion coupled with a smooth surface. No plastic isomers have all these properties, yet, so any plastic-based substrate will almost certainly be a multilayer composite structure.
This technical seminar discusses electronic paper (e-paper) and flexible displays. E-paper is a display that is flexible and can be bent like paper. It has a wide viewing angle and low power consumption. E-paper was first developed in the 1970s and works by having black and white particles move to the top or bottom of capsules to create an image. Flexible displays allow users to interact with devices by twisting, bending, and folding. E-paper has applications in electronic shelf labels, e-books, and could replace newspapers and books in the future. The seminar covers the history, construction, functionality, advantages, and applications of e-paper and flexible displays.
This document provides an overview of OLED (organic light-emitting diode) technology. It discusses how OLEDs work using organic compounds to emit light, their advantages over other display technologies like thinner/lighter/more flexible designs and low power consumption. The document also covers OLED applications, challenges like short lifetimes, and conclusions that OLEDs will replace LCDs given flexibility enabling new applications and providing an environmentally friendly display option.
Flexible displays have been technically challenging to develop due to requirements for durability, flexibility, low power consumption, and high contrast ratio. Earlier flexible displays relied on plastic or metal foil substrates instead of glass, which posed issues to resolve regarding properties like clarity, stability, and smooth surfaces. Recent integration of flexible display technologies with traditional web processing and inkjet technologies has enabled low-cost, high-throughput manufacturing using roll-to-roll processes and has the potential to replace paper.
OLED (Organic Light Emitting Diode) is a light emitting diode with an electroluminescent layer made of organic compounds that emits light when electric current is applied. OLEDs were first developed in the 1950s in France but it was not until the 1980s that they were made with thin organic layers. OLEDs have an anode, organic layers including a conducting layer and emissive layer, and a cathode. They can be passive with perpendicular strips or active with full cathode/anode layers. OLEDs are used in televisions, phones, watches, laptops and more. While offering advantages like flexibility, thinness and high contrast, they also face challenges such as short blue
A Future For Printed And Flexible Electronicsn-tech Research
The document discusses the past, present, and future of printed and flexible electronics. It summarizes that the first revolution of thick-film electronics succeeded due to aligning with consumerism trends and meeting immediate market demands. The second revolution failed because it did not align with technology megatrends and struggled with high prices and technical challenges of printing. The next revolution will focus on cost reduction and see earlier revenues from components/materials than systems. Near-term opportunities include OLED lighting, flexible displays, and smart cards.
This document provides an overview of organic light-emitting diodes (OLEDs). It explains that OLEDs consist of organic thin films sandwiched between two conductors, and when electric current is applied they emit bright light. It describes the basic architecture and light emission process of OLEDs. It also discusses different types of OLEDs including passive matrix, active matrix, transparent, top-emitting and flexible OLEDs. Finally, it covers applications, advantages, disadvantages and future uses of OLED technology.
This document discusses organic light-emitting diodes (OLEDs). It defines OLEDs as thin, light-emitting diodes that consist of organic compounds that emit light when electric current is passed through them. The document describes the layers that make up an OLED, including the substrate, anode, organic layers, and cathode. It also classifies OLEDs based on transparency and pixel formation and discusses some applications of OLEDs such as in televisions, keyboards, and lighting. Finally, it compares OLEDs to other display and lighting technologies and outlines some advantages and challenges of OLEDs.
The transparent LCD display which we self-developed, could achieve dynamic &static transparent display effect under natural light with all sorts of colors .our transparent LCD possess unique characterictics of high resolution ,high grade of transparency, true color imagining and high contrast .we make it alive!
High Technology
High transparent :fill light transparent rate:75-85%;
Colorful: high contrast, true color imaging,
Custom size: you can custom size;
Highest 4K resolution
New Fashion
New idea: Great way to show your products;
Impressive: play product introduction video same time;
Fashionable : Modern art design, elegant appearance
Smart
Operate smart: remote control operate,
Smart Play: Use the computer to operate , easy for everyone;
Safety Power: only 12V
Interactive
Touch function: Touch directly on the screen
Sensitive and flexible;
System solutions , comprehensive technical support
The document provides information about e-ink technology, including its history, working principle, variants, applications, advantages, and future scope. E-ink technology uses electrically charged pigments in microcapsules that can be moved around using an electric field to create an electronic paper display. It is used in applications such as e-readers, watches, phones, and other devices to create low-power, sunlight readable displays.
E-Ink did several things right in navigating challenges:
1. They formed SWAT teams to quickly address issues like speed and power consumption.
2. They reduced staff and shut down an underperforming plant to cut costs.
3. Partnering with Toppan Printing connected them with Sony, an important potential customer.
4. They focused on becoming a materials supplier rather than building full displays, licensing technology, or assembling subcomponents.
Electronic paper, or e-paper, is a display technology that mimics the appearance of ordinary ink on paper. Unlike LCD displays which use backlighting, e-paper reflects light like paper and can hold text and images indefinitely without drawing electricity. It was first developed in the 1970s at Xerox PARC. E-paper works through tiny plastic beads or microcapsules embedded in a sheet, each with two sides of different colors. An electric field rotates the beads to display one color or the other. E-paper provides advantages like wide viewing angle, flexibility, low power consumption, and readability in sunlight. However, it also has disadvantages like low refresh rates and needing backlighting for low-
E ink is an electronic paper display invented in 1996 at MIT. It uses microcapsules containing charged black and white pigment particles that are moved to the top or bottom of the capsule by electric fields to display text and images. E ink displays are used in e-readers and other devices because they are bi-stable, require no power to maintain a display, and can be read in direct sunlight. The document discusses the history, working mechanism, applications, advantages like low power consumption, and future uses of e ink technology.
PLEDs use semiconducting polymers that emit light when electric current is applied. They provide more efficient LED displays than traditional LEDs, and are useful for portable device displays due to their flexibility and thinness. PLEDs have an anode, cathode, and polymer film sandwiched between them. When voltage is applied, the polymer emits light. PLEDs can be flexible, transparent, or stacked to provide different display types and colors. They have advantages over LCDs like lower power use and wider viewing angles, but shorter lifetimes. PLEDs are being developed for applications like phones, watches, TVs, and more.
Why Apple and Samsung go to flexible displayDawson Hun
Apple and Samsung will go into flexible display soon. We have here why they go to flexible display and our company, Materials and System works on nanofiber based flexible display materials for this emerging technology.
This document discusses OLED technology. It begins by outlining some of the main applications of OLEDs, including in televisions and small screens due to their high reliability and readability. It then describes the basic structure of an OLED, which consists of a substrate layer, anode layer, conductive layer, emissive layer, and cathode layer. Electrons and holes combine in the emissive layer to produce light. The document notes some challenges with OLEDs, such as potential damage from water and their relatively short lifespan compared to other display technologies.
This document discusses flexible electronics and OLED displays. It begins with an introduction to advances in thin-film materials and flexible electronics. It then covers the basic OLED structure, materials used including substrates and backplane electronics, and technologies for flexible displays. The document discusses fabrication methods like batch and roll-to-roll processing. It outlines applications in areas like healthcare, automotive, and displays. Advantages of flexible electronics are listed as well as limitations that need to be addressed.
Truly Flexible Electronics for Wearables and Everywhere-ablesFlexEnable
The document discusses the potential for flexible electronics to enable truly wearable and ubiquitous ("everywhere-able") technologies. It outlines challenges facing wearables like design, comfort and utility that have led many users to abandon their devices. Flexible electronics could help by allowing fully integrated, lightweight and shatterproof displays, sensors and systems directly on clothing and everyday objects. The company FlexEnable is introduced as uniquely positioned to enable this with its thin, bendable transistors and capabilities to integrate flexible displays and sensors into entire systems on plastic. Partnerships are discussed to build new supply chains combining flexible electronics with textiles and usher in a new generation of wearables and ambient interactive technologies.
Oled (solid state light emitting diode) display technology Aniket Kalra
OLEDs (organic light-emitting diodes) are thin films of organic material that emit light when electric current is passed through them. OLED displays do not require backlights and can provide high quality images from any viewing angle. The document discusses the history and development of OLED technology. It describes the different types of OLED displays including passive matrix OLEDs (PMOLEDs), active matrix OLEDs (AMOLEDs), transparent OLEDs (TOLEDs), flexible OLEDs (FOLEDs), and white OLEDs (WOLEDs). The benefits of OLEDs over traditional LCD displays are their thinness, lightness, flexibility and low power consumption without needing backlights
Electronic ink is a new technology under development that could replace paper. It uses microcapsules filled with pigmented chips and a colored liquid that can be manipulated using electric charges to display words and images. The text or images can be changed electronically without leaving marks like rewriting on paper. It works similar to a field of beach balls filled with ping pong balls - applying charges makes the balls rise and fall, appearing white or the ink color to form patterns and text. This could revolutionize books and newspapers by allowing digital updates and storage of many works.
Flexible electronics uses flexible plastic substrates to assemble electronic circuits by mounting devices onto flexible materials. Flex circuits consist of a flexible plastic substrate like polyimide or thin glass with a conductive path of materials like copper or graphene. Electronic components such as transistors and flexible resistors and capacitors can be made from silicon nanomembranes or thin films. Flexible displays use organic light-emitting diodes instead of backlights. Roll-to-roll processing and printing techniques are used in manufacturing. The global flexible electronics market is estimated to grow from $200 million to $800 million by 2020 with applications in automotive, space crafts, foldable displays, and military uses.
A durable and flexible display with low-power consumption, high-contrast ratio, has been a technical challenge for years. They have to be lightweight, rugged, and in some cases, conformal, wearable, rollable and unbreakable. The recent successful integration of flexible display technologies and the traditional web-based processing and/or inkjet technologies has opened up the possibility of low cost and high throughput roll-to-roll manufacturing and has shown the potential to replace the paper used today.
presentation on AMOLED(active matrix organic LED) by jitendra sutharjitendra suthar
this is a presentation on AMOLED(active matrix organic LED).after reading this you can know about what is AMOLED and how it works?.
you can also know the principle and component of AMOLED and manufacturing process of AMOLED.it also contain the advantages,application ,disadvantages and future scope with conclusion.
Smart Paper Technology a Review Based On Concepts of EPaper Technologyiosrjce
IOSR Journal of Electronics and Communication Engineering(IOSR-JECE) is a double blind peer reviewed International Journal that provides rapid publication (within a month) of articles in all areas of electronics and communication engineering and its applications. The journal welcomes publications of high quality papers on theoretical developments and practical applications in electronics and communication engineering. Original research papers, state-of-the-art reviews, and high quality technical notes are invited for publications.
There is 100% chances you are going to engage your customers on mobile first, but converting them into lifetime and faithful promoters is a multi-screen journey. For brands, media and retailers it is then critical to select the most relevant device-agnostic technology and the
The Rolltop laptop concept designed by Evgeny Orkin combines a laptop, monitor, and graphics tablet into a single device with a flexible OLED display. The display can unroll from a compact rolled-up size into a 13-inch laptop screen or a 17-inch monitor. It aims to provide an all-in-one portable device without the need for additional accessories by integrating components like speakers, ports, and a power supply into the core of the device. Orkin believes flexible OLED technology makes this concept feasible and hopes it will appeal to students, travelers, and home users if produced by a major manufacturer.
HP Labs: Titan DB on LDBC SNB interactive by Tomer Sagi (HP)Ioan Toma
HP has a long history of innovation dating back to its founding in a Palo Alto garage in 1939. Some of its notable innovations include the first programmable calculator in 1968, the first pocket scientific calculator in 1972, launching the first inkjet printer in 1984, and being first to commercialize RISC technology in 1986. More recently, HP Labs has developed technologies like ePrint in 2010, 3D Photon technology in 2011, and Project Moonshot in 2013. Going forward, HP Labs is focusing its research on systems, networking, security, analytics, and printing to deliver the fastest and most efficient route from data to value.
A Future For Printed And Flexible Electronicsn-tech Research
The document discusses the past, present, and future of printed and flexible electronics. It summarizes that the first revolution of thick-film electronics succeeded due to aligning with consumerism trends and meeting immediate market demands. The second revolution failed because it did not align with technology megatrends and struggled with high prices and technical challenges of printing. The next revolution will focus on cost reduction and see earlier revenues from components/materials than systems. Near-term opportunities include OLED lighting, flexible displays, and smart cards.
This document provides an overview of organic light-emitting diodes (OLEDs). It explains that OLEDs consist of organic thin films sandwiched between two conductors, and when electric current is applied they emit bright light. It describes the basic architecture and light emission process of OLEDs. It also discusses different types of OLEDs including passive matrix, active matrix, transparent, top-emitting and flexible OLEDs. Finally, it covers applications, advantages, disadvantages and future uses of OLED technology.
This document discusses organic light-emitting diodes (OLEDs). It defines OLEDs as thin, light-emitting diodes that consist of organic compounds that emit light when electric current is passed through them. The document describes the layers that make up an OLED, including the substrate, anode, organic layers, and cathode. It also classifies OLEDs based on transparency and pixel formation and discusses some applications of OLEDs such as in televisions, keyboards, and lighting. Finally, it compares OLEDs to other display and lighting technologies and outlines some advantages and challenges of OLEDs.
The transparent LCD display which we self-developed, could achieve dynamic &static transparent display effect under natural light with all sorts of colors .our transparent LCD possess unique characterictics of high resolution ,high grade of transparency, true color imagining and high contrast .we make it alive!
High Technology
High transparent :fill light transparent rate:75-85%;
Colorful: high contrast, true color imaging,
Custom size: you can custom size;
Highest 4K resolution
New Fashion
New idea: Great way to show your products;
Impressive: play product introduction video same time;
Fashionable : Modern art design, elegant appearance
Smart
Operate smart: remote control operate,
Smart Play: Use the computer to operate , easy for everyone;
Safety Power: only 12V
Interactive
Touch function: Touch directly on the screen
Sensitive and flexible;
System solutions , comprehensive technical support
The document provides information about e-ink technology, including its history, working principle, variants, applications, advantages, and future scope. E-ink technology uses electrically charged pigments in microcapsules that can be moved around using an electric field to create an electronic paper display. It is used in applications such as e-readers, watches, phones, and other devices to create low-power, sunlight readable displays.
E-Ink did several things right in navigating challenges:
1. They formed SWAT teams to quickly address issues like speed and power consumption.
2. They reduced staff and shut down an underperforming plant to cut costs.
3. Partnering with Toppan Printing connected them with Sony, an important potential customer.
4. They focused on becoming a materials supplier rather than building full displays, licensing technology, or assembling subcomponents.
Electronic paper, or e-paper, is a display technology that mimics the appearance of ordinary ink on paper. Unlike LCD displays which use backlighting, e-paper reflects light like paper and can hold text and images indefinitely without drawing electricity. It was first developed in the 1970s at Xerox PARC. E-paper works through tiny plastic beads or microcapsules embedded in a sheet, each with two sides of different colors. An electric field rotates the beads to display one color or the other. E-paper provides advantages like wide viewing angle, flexibility, low power consumption, and readability in sunlight. However, it also has disadvantages like low refresh rates and needing backlighting for low-
E ink is an electronic paper display invented in 1996 at MIT. It uses microcapsules containing charged black and white pigment particles that are moved to the top or bottom of the capsule by electric fields to display text and images. E ink displays are used in e-readers and other devices because they are bi-stable, require no power to maintain a display, and can be read in direct sunlight. The document discusses the history, working mechanism, applications, advantages like low power consumption, and future uses of e ink technology.
PLEDs use semiconducting polymers that emit light when electric current is applied. They provide more efficient LED displays than traditional LEDs, and are useful for portable device displays due to their flexibility and thinness. PLEDs have an anode, cathode, and polymer film sandwiched between them. When voltage is applied, the polymer emits light. PLEDs can be flexible, transparent, or stacked to provide different display types and colors. They have advantages over LCDs like lower power use and wider viewing angles, but shorter lifetimes. PLEDs are being developed for applications like phones, watches, TVs, and more.
Why Apple and Samsung go to flexible displayDawson Hun
Apple and Samsung will go into flexible display soon. We have here why they go to flexible display and our company, Materials and System works on nanofiber based flexible display materials for this emerging technology.
This document discusses OLED technology. It begins by outlining some of the main applications of OLEDs, including in televisions and small screens due to their high reliability and readability. It then describes the basic structure of an OLED, which consists of a substrate layer, anode layer, conductive layer, emissive layer, and cathode layer. Electrons and holes combine in the emissive layer to produce light. The document notes some challenges with OLEDs, such as potential damage from water and their relatively short lifespan compared to other display technologies.
This document discusses flexible electronics and OLED displays. It begins with an introduction to advances in thin-film materials and flexible electronics. It then covers the basic OLED structure, materials used including substrates and backplane electronics, and technologies for flexible displays. The document discusses fabrication methods like batch and roll-to-roll processing. It outlines applications in areas like healthcare, automotive, and displays. Advantages of flexible electronics are listed as well as limitations that need to be addressed.
Truly Flexible Electronics for Wearables and Everywhere-ablesFlexEnable
The document discusses the potential for flexible electronics to enable truly wearable and ubiquitous ("everywhere-able") technologies. It outlines challenges facing wearables like design, comfort and utility that have led many users to abandon their devices. Flexible electronics could help by allowing fully integrated, lightweight and shatterproof displays, sensors and systems directly on clothing and everyday objects. The company FlexEnable is introduced as uniquely positioned to enable this with its thin, bendable transistors and capabilities to integrate flexible displays and sensors into entire systems on plastic. Partnerships are discussed to build new supply chains combining flexible electronics with textiles and usher in a new generation of wearables and ambient interactive technologies.
Oled (solid state light emitting diode) display technology Aniket Kalra
OLEDs (organic light-emitting diodes) are thin films of organic material that emit light when electric current is passed through them. OLED displays do not require backlights and can provide high quality images from any viewing angle. The document discusses the history and development of OLED technology. It describes the different types of OLED displays including passive matrix OLEDs (PMOLEDs), active matrix OLEDs (AMOLEDs), transparent OLEDs (TOLEDs), flexible OLEDs (FOLEDs), and white OLEDs (WOLEDs). The benefits of OLEDs over traditional LCD displays are their thinness, lightness, flexibility and low power consumption without needing backlights
Electronic ink is a new technology under development that could replace paper. It uses microcapsules filled with pigmented chips and a colored liquid that can be manipulated using electric charges to display words and images. The text or images can be changed electronically without leaving marks like rewriting on paper. It works similar to a field of beach balls filled with ping pong balls - applying charges makes the balls rise and fall, appearing white or the ink color to form patterns and text. This could revolutionize books and newspapers by allowing digital updates and storage of many works.
Flexible electronics uses flexible plastic substrates to assemble electronic circuits by mounting devices onto flexible materials. Flex circuits consist of a flexible plastic substrate like polyimide or thin glass with a conductive path of materials like copper or graphene. Electronic components such as transistors and flexible resistors and capacitors can be made from silicon nanomembranes or thin films. Flexible displays use organic light-emitting diodes instead of backlights. Roll-to-roll processing and printing techniques are used in manufacturing. The global flexible electronics market is estimated to grow from $200 million to $800 million by 2020 with applications in automotive, space crafts, foldable displays, and military uses.
A durable and flexible display with low-power consumption, high-contrast ratio, has been a technical challenge for years. They have to be lightweight, rugged, and in some cases, conformal, wearable, rollable and unbreakable. The recent successful integration of flexible display technologies and the traditional web-based processing and/or inkjet technologies has opened up the possibility of low cost and high throughput roll-to-roll manufacturing and has shown the potential to replace the paper used today.
presentation on AMOLED(active matrix organic LED) by jitendra sutharjitendra suthar
this is a presentation on AMOLED(active matrix organic LED).after reading this you can know about what is AMOLED and how it works?.
you can also know the principle and component of AMOLED and manufacturing process of AMOLED.it also contain the advantages,application ,disadvantages and future scope with conclusion.
Smart Paper Technology a Review Based On Concepts of EPaper Technologyiosrjce
IOSR Journal of Electronics and Communication Engineering(IOSR-JECE) is a double blind peer reviewed International Journal that provides rapid publication (within a month) of articles in all areas of electronics and communication engineering and its applications. The journal welcomes publications of high quality papers on theoretical developments and practical applications in electronics and communication engineering. Original research papers, state-of-the-art reviews, and high quality technical notes are invited for publications.
There is 100% chances you are going to engage your customers on mobile first, but converting them into lifetime and faithful promoters is a multi-screen journey. For brands, media and retailers it is then critical to select the most relevant device-agnostic technology and the
The Rolltop laptop concept designed by Evgeny Orkin combines a laptop, monitor, and graphics tablet into a single device with a flexible OLED display. The display can unroll from a compact rolled-up size into a 13-inch laptop screen or a 17-inch monitor. It aims to provide an all-in-one portable device without the need for additional accessories by integrating components like speakers, ports, and a power supply into the core of the device. Orkin believes flexible OLED technology makes this concept feasible and hopes it will appeal to students, travelers, and home users if produced by a major manufacturer.
HP Labs: Titan DB on LDBC SNB interactive by Tomer Sagi (HP)Ioan Toma
HP has a long history of innovation dating back to its founding in a Palo Alto garage in 1939. Some of its notable innovations include the first programmable calculator in 1968, the first pocket scientific calculator in 1972, launching the first inkjet printer in 1984, and being first to commercialize RISC technology in 1986. More recently, HP Labs has developed technologies like ePrint in 2010, 3D Photon technology in 2011, and Project Moonshot in 2013. Going forward, HP Labs is focusing its research on systems, networking, security, analytics, and printing to deliver the fastest and most efficient route from data to value.
Flexible displays are thin display screens that can be printed on flexible materials and attached to different surfaces. They are lighter and thinner than glass screens and can be curved. There are two main types - e-paper displays using electronic ink and LED displays. E-paper has a front plane with electronic ink and a back plane with circuits. LED displays use OLED technology with organic layers deposited on a flexible plastic substrate. Flexible displays could be used in phones, notebooks, signs and more as the technology advances. Challenges include limited availability, lifetime and manufacturing difficulties, but flexible displays may revolutionize industries in the future.
The document summarizes key points from Day 1 of DockerCon. It discusses Docker's mission to build tools for mass innovation and how they are taking an incremental approach to reinventing the programmer's toolbox. New tools like Docker, Docker Compose, Docker Machine, Docker Swarm, Docker Networking plugins and Notary were introduced to help solve problems around runtimes, packaging, service composition, machine management, clustering, networking and security. Docker is also donating runC to the Open Container Project and forming the Open Container Project to establish open standards around container formats and governance.
The document describes the Rolltop laptop concept designed by Evgeny Orkin. The Rolltop uses a flexible OLED display that can roll up into a compact cylinder for portability and unroll into different formats, including a 13-inch laptop, 17-inch tablet, or standalone display monitor. It aims to combine the functions of a laptop, tablet, and external monitor into a single portable device using advances in flexible display technology. The concept has received interest but would require further development to address technical challenges before being realized as a commercial product.
This document discusses modular phones, also known as phone blocks. It defines modular phones as phones made of detachable hardware modules or blocks that can be customized by the user. The concept was created by designer David Hakkens and is being researched and developed by projects like Project Ara from Google and Motorola. Modular phones allow users to upgrade individual components like memory instead of replacing the entire device, reducing e-waste. The document outlines the purpose, advantages like customization and sustainability, and disadvantages like software compatibility challenges of modular phone technology.
This document discusses how communication technology will advance and influence society over the next decade. It predicts that by 2024, people will benefit from flexible screens, voice control of appliances, autonomous vehicles, advanced social media and more personalized mobile experiences. The document also references several communication theories - like Diffusion of Innovations and Uses and Gratifications Theory - to explain how and why technology spreads and is adopted in culture. It suggests that within 10 years, the technology of 2014 will seem outdated and society will come to expect greater convenience through emerging innovations.
Dr. Paul Cain of FlexEnable gave a presentation on the company's organic thin-film transistor (OTFT) technology for flexible electronics. FlexEnable has developed the lowest cost and most flexible platform using OTFTs that can be used for LCD, OLED, and sensor applications. Their OTFT technology has been proven for industrial manufacturing and offers high performance with low temperature processing, high mobility, bendability, and stability compared to other technologies like amorphous silicon. FlexEnable is working with partners to commercialize applications of their OTFT technology like flexible displays and sensors for wearables, automotive, and other markets.
Kevin Suttle is a channel developer for litl and has contributed to various tech publications and projects. He discusses the importance of considering context when developing applications, noting that context includes more than just screen size. Context refers to the user's surroundings, capabilities of their device, time sensitivity, social interactions and more. He advocates developing "contextual applications" or "contextual experiences" that account for these various contexts rather than focusing only on devices or screen sizes.
Corning Willow Glass is a new flexible glass material that has the potential to enable many new applications. It is thin, strong, and flexible enough to be rolled up, allowing for continuous roll-to-roll manufacturing processes. This could significantly reduce costs and enable new form factors like curved or flexible displays. Corning Willow Glass retains the high strength and heat resistance of glass while gaining flexibility. The National Renewable Energy Laboratory has used it to create flexible solar cells that could potentially be integrated into roof shingles to lower the installation costs of solar power.
Latest in-store digital solutions, innovations and cutting edge techniquesMediaZest
‘How do I future-proof my solution?’
Understand the latest in-store digital solutions, innovations and cutting-edge techniques coming through. Our visit to the ISE exhibition in Amsterdam each year gives us valuable insight into how we can help our clients plan for the future. Last year we decided it would be valuable to share our research with our clients. It’s a way of saying thank you for your custom and help you plan your in-store digital strategy.
Google Glass is a wearable computer with an optical head-mounted display developed by Google. It uses technologies like augmented reality, Android, and 4G to overlay information over the user's field of vision. The device has a camera, display, speaker, button, and microphone and is operated through voice commands and touch controls. While promising hands-free access to information, it also raises privacy concerns. Future versions may add hologram technology and operate independently.
The ability to deal with and learn in the face of uncertainty is a key capability of organizations in dynamic environments. Scenarios based on normativity, performativity and transparency foster organisational learning, allow preparing for alternative developments and working out preferred options. This paper builds on previous research on the analysis respectively modeling of future scenarios in the telecommunication industry. We introduce and exemplify a qualitative method of collaborative modeling. It combines the development of a normative vision with a grounded innovation approach to generate, aggregate and qualify insights in order to develop exploratory scenarios based on key uncertainty factors. At least as important as the resulting scenarios is the learning experience of the participants. We elaborate upon the process oriented implications and tools of scenario modeling as a learning activity.
new technology NEXTEP by sony and design by Hiromi Kiriki.
almost all the information closed in it. its new and logically technology, which makes our life easier and also faster.
For further information contact me on: zoya.mehdi5@gmail.com
Prototyping - 2015 PhillyCHI UX Workshop SeriesMatthew Thomas
Slides for prototyping workshop I facilitated for the 2015 PhillyCHI Workshop Series. Covers overview of prototyping, methods, and considerations when considering prototype fidelity.
Project Glass is a Google program developing augmented reality glasses. The glasses would display information from a user's smartphone like maps and messages through a small video display. Users could interact with the glasses using voice commands through a built-in microphone. The glasses would connect to the internet using 4G and WiFi and run on Android. They aim to make accessing information hands-free and provide new ways to interact with the digital world through augmented reality.
The document summarizes Nokia's work in accessibility over 20 years from 1997-2011. It began with trials of accessibility features on Nokia phones for deaf users. Nokia then launched several accessibility products and services through the years, including inductive hearing loops, vibrating alarms, text-to-speech, and screen reading. Nokia collaborated with partners and joined initiatives to expand accessibility. By 2011, Nokia welcomed a partnership with Microsoft to include accessibility features in device software.
Automating Threat Hunting on the Dark Web and other nitty-gritty thingsApurv Singh Gautam
What's the hype with the dark web? Why are security researchers focusing more on the dark web? How to perform threat hunting on the dark web? Can it be automated? If you are curious about the answers to these questions, then this talk is for you. Dark web hosts several sites where criminals buy, sell, and trade goods and services like drugs, weapons, exploits, etc. Hunting on the dark web can help identify, profile, and mitigate any organization risks if done timely and appropriately. This is why threat intelligence obtained from the dark web can be crucial for any organization. In this presentation, you will learn why threat hunting on the dark web is necessary, different methodologies to perform hunting, the process after hunting, and how hunted data is analyzed. The main focus of this talk will be automating the threat hunting on the dark web. You will also get to know what operational security (OpSec) is and why it is essential while performing hunting on the dark web and how you can employ it in your daily life.
Dark web hosts several sites where criminals buy, sell, and trade goods and services. It includes drugs, weapons, exploits, insider information, etc. This is what makes it valuable to security researchers. Threat Intelligence obtained from the dark web can be crucial for any organization. Hunting on the dark web is not an easy task, and it involves lots of time and resources. It can help identify, profiling, and mitigate risks of any organization if done timely and appropriately. In this presentation, I will discuss why threat hunting on the dark web is important and how it can be done using different methodologies. I will also touch upon operational security and why it is essential while performing hunting on the dark web.
All about Cyber Security - From the perspective of a MS studentApurv Singh Gautam
This seminar was delivered for Cyber Security certification students of Symbiosis Insitute of Technology. This includes why cybersecurity is important, how to make your profile stronger for MS, howto stand out from the crowd by doing rpojects, etc.
This document summarizes a presentation on cyber security fundamentals given to summer school students. It discusses the need for security due to increasing technology use and cyber criminals. It defines hacking and different types of hackers. It covers hacking strategies, cyber crimes and their punishments. It also discusses social engineering techniques, the human element as the weakest link, and ways to prevent social engineering. Finally, it provides tips for safe computing, internet surfing, mobile security, passwords, email/chatting, social media, banking, and preventing online scams.
The document provides an introduction to Trojans, including defining what they are, the two main types (direct connection and reverse connection), and how remote administration tools (RATs) are used to create and control Trojans. It discusses how Trojans can be used by hackers to remotely access victims' computers and systems. It also provides examples of common RAT programs and outlines some of the functions RATs can perform once infected, such as keylogging and camera/screen capturing. The document concludes by offering some tips on how to protect yourself from Trojans and social engineering attacks.
This document provides an overview of cyber security fundamentals and networking fundamentals. For cyber security, it discusses the need for security due to increasing technology use and cyber criminals. It also defines hacking, different types of hackers, and common hacking strategies. It then covers common cyber crimes like cyber pornography and identity theft, and the related laws and punishments. For networking fundamentals, it defines different types of networks, IP addresses, IP versions, internal vs external IPs, static vs dynamic IPs, and the roles of ISPs and IANA in managing IP addresses.
This document discusses cyber security fundamentals and social engineering. It covers the need for security due to increasing technology use and cyber criminals. It defines hacking and different types of hackers like white hat, black hat, and grey hat hackers. The document also discusses networking fundamentals like IP addresses, types of IP addresses, and Trojans. It defines viruses, worms, direct connection Trojans, and reverse connection Trojans. Finally, it introduces social engineering as the use of deception to manipulate individuals into revealing private information, and discusses techniques and the human element as the weakest link in security.
This document provides an introduction to cyber security fundamentals and awareness. It begins with an introduction by the author Apurv Singh Gautam, who works in network penetration testing and security. The document then covers topics like the need for security, what hacking is, types of hackers, hacking strategies, cyber crimes and associated laws, social engineering techniques and the human element as the weakest link. It concludes with many tips for safe computing, internet surfing, mobile security, password protection, email/chatting securely, using social media safely, banking securely and preventing online scams. The goal is to raise awareness about cyber security risks and best practices.
This document provides an overview of open-source intelligence (OSINT) techniques. It defines OSINT as information gathered from publicly available sources on the internet and media. Some key OSINT data sources it outlines include search engines, social networks, maps, public databases, and other online tools that can be used to gather intelligence on people, organizations, domains, and technical information. The document also lists specific tools and websites that can be used for OSINT activities like searching social media, performing online investigations, and monitoring open data sources.
Vulnerability assessment identifies flaws in computers and networks but does not differentiate exploitable flaws from non-exploitable ones, providing companies with a comprehensive view of weaknesses. Penetration testing tests systems to exploit vulnerabilities either automatically or manually, determining security weaknesses to test an organization's security policies. Types of penetration testing include white box within a network, black box externally without network knowledge, and gray box externally with some internal knowledge.
This document summarizes several recent security news stories. It reports on the discovery of the WireX Android botnet that has infected over 120,000 devices and is used to conduct DDoS attacks. It also mentions a data breach at Instagram that exposed users' contact info, the hacking of WikiLeaks' website by changing its DNS, the exposure of 630 million email addresses used by a spam bot, and the use of the CIA malware AngelFire to gain remote access on Windows devices. The document concludes by covering the Locky ransomware email scheme and a data breach at the social network Tiranga.
Anonymous Traffic Network provides an overview of Tor and anonymous communication networks. It discusses the history of onion routing starting in 1995 and the launch of the Tor network in 2003. It describes how Tor works using layered encryption and frequently changing paths between routers to anonymize users. While Tor aims to anonymize users, there are some security issues like exit nodes being able to monitor unencrypted traffic and timing analysis attacks.
Corruption is defined as the impairment of integrity, virtues and moral principles through improper means. It departs from what is pure or correct. The document discusses various types of corruption including political, governmental, and corporate corruption. It outlines several major corruption scandals that have occurred in India such as the 2G spectrum scam and Commonwealth Games scam. These involved high-level politicians mishandling large sums of money. The document also discusses efforts to curb corruption through the Jan Lokpal bill championed by activist Anna Hazare, which aims to create an independent anti-corruption body with stronger powers than the government's proposed bill.
This document describes an encrypted database management system that allows administrators to securely store and access employee data from anywhere using their smartphone. It discusses how encryption protects data even if stolen, as attackers cannot access it without the encryption key. The system allows administrators to add, read, write, modify, search, delete, encrypt, and decrypt employee records including name, age, ID number, mobile number, salary, sector, year of joining, gender, and designation. It provides functions for logging in, displaying interfaces, performing database operations, and concluding that C++ is well-suited for building such secure systems.
HCL Notes und Domino Lizenzkostenreduzierung in der Welt von DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-und-domino-lizenzkostenreduzierung-in-der-welt-von-dlau/
DLAU und die Lizenzen nach dem CCB- und CCX-Modell sind für viele in der HCL-Community seit letztem Jahr ein heißes Thema. Als Notes- oder Domino-Kunde haben Sie vielleicht mit unerwartet hohen Benutzerzahlen und Lizenzgebühren zu kämpfen. Sie fragen sich vielleicht, wie diese neue Art der Lizenzierung funktioniert und welchen Nutzen sie Ihnen bringt. Vor allem wollen Sie sicherlich Ihr Budget einhalten und Kosten sparen, wo immer möglich. Das verstehen wir und wir möchten Ihnen dabei helfen!
Wir erklären Ihnen, wie Sie häufige Konfigurationsprobleme lösen können, die dazu führen können, dass mehr Benutzer gezählt werden als nötig, und wie Sie überflüssige oder ungenutzte Konten identifizieren und entfernen können, um Geld zu sparen. Es gibt auch einige Ansätze, die zu unnötigen Ausgaben führen können, z. B. wenn ein Personendokument anstelle eines Mail-Ins für geteilte Mailboxen verwendet wird. Wir zeigen Ihnen solche Fälle und deren Lösungen. Und natürlich erklären wir Ihnen das neue Lizenzmodell.
Nehmen Sie an diesem Webinar teil, bei dem HCL-Ambassador Marc Thomas und Gastredner Franz Walder Ihnen diese neue Welt näherbringen. Es vermittelt Ihnen die Tools und das Know-how, um den Überblick zu bewahren. Sie werden in der Lage sein, Ihre Kosten durch eine optimierte Domino-Konfiguration zu reduzieren und auch in Zukunft gering zu halten.
Diese Themen werden behandelt
- Reduzierung der Lizenzkosten durch Auffinden und Beheben von Fehlkonfigurationen und überflüssigen Konten
- Wie funktionieren CCB- und CCX-Lizenzen wirklich?
- Verstehen des DLAU-Tools und wie man es am besten nutzt
- Tipps für häufige Problembereiche, wie z. B. Team-Postfächer, Funktions-/Testbenutzer usw.
- Praxisbeispiele und Best Practices zum sofortigen Umsetzen
Salesforce Integration for Bonterra Impact Management (fka Social Solutions A...Jeffrey Haguewood
Sidekick Solutions uses Bonterra Impact Management (fka Social Solutions Apricot) and automation solutions to integrate data for business workflows.
We believe integration and automation are essential to user experience and the promise of efficient work through technology. Automation is the critical ingredient to realizing that full vision. We develop integration products and services for Bonterra Case Management software to support the deployment of automations for a variety of use cases.
This video focuses on integration of Salesforce with Bonterra Impact Management.
Interested in deploying an integration with Salesforce for Bonterra Impact Management? Contact us at sales@sidekicksolutionsllc.com to discuss next steps.
Introduction of Cybersecurity with OSS at Code Europe 2024Hiroshi SHIBATA
I develop the Ruby programming language, RubyGems, and Bundler, which are package managers for Ruby. Today, I will introduce how to enhance the security of your application using open-source software (OSS) examples from Ruby and RubyGems.
The first topic is CVE (Common Vulnerabilities and Exposures). I have published CVEs many times. But what exactly is a CVE? I'll provide a basic understanding of CVEs and explain how to detect and handle vulnerabilities in OSS.
Next, let's discuss package managers. Package managers play a critical role in the OSS ecosystem. I'll explain how to manage library dependencies in your application.
I'll share insights into how the Ruby and RubyGems core team works to keep our ecosystem safe. By the end of this talk, you'll have a better understanding of how to safeguard your code.
HCL Notes and Domino License Cost Reduction in the World of DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-and-domino-license-cost-reduction-in-the-world-of-dlau/
The introduction of DLAU and the CCB & CCX licensing model caused quite a stir in the HCL community. As a Notes and Domino customer, you may have faced challenges with unexpected user counts and license costs. You probably have questions on how this new licensing approach works and how to benefit from it. Most importantly, you likely have budget constraints and want to save money where possible. Don’t worry, we can help with all of this!
We’ll show you how to fix common misconfigurations that cause higher-than-expected user counts, and how to identify accounts which you can deactivate to save money. There are also frequent patterns that can cause unnecessary cost, like using a person document instead of a mail-in for shared mailboxes. We’ll provide examples and solutions for those as well. And naturally we’ll explain the new licensing model.
Join HCL Ambassador Marc Thomas in this webinar with a special guest appearance from Franz Walder. It will give you the tools and know-how to stay on top of what is going on with Domino licensing. You will be able lower your cost through an optimized configuration and keep it low going forward.
These topics will be covered
- Reducing license cost by finding and fixing misconfigurations and superfluous accounts
- How do CCB and CCX licenses really work?
- Understanding the DLAU tool and how to best utilize it
- Tips for common problem areas, like team mailboxes, functional/test users, etc
- Practical examples and best practices to implement right away
Driving Business Innovation: Latest Generative AI Advancements & Success StorySafe Software
Are you ready to revolutionize how you handle data? Join us for a webinar where we’ll bring you up to speed with the latest advancements in Generative AI technology and discover how leveraging FME with tools from giants like Google Gemini, Amazon, and Microsoft OpenAI can supercharge your workflow efficiency.
During the hour, we’ll take you through:
Guest Speaker Segment with Hannah Barrington: Dive into the world of dynamic real estate marketing with Hannah, the Marketing Manager at Workspace Group. Hear firsthand how their team generates engaging descriptions for thousands of office units by integrating diverse data sources—from PDF floorplans to web pages—using FME transformers, like OpenAIVisionConnector and AnthropicVisionConnector. This use case will show you how GenAI can streamline content creation for marketing across the board.
Ollama Use Case: Learn how Scenario Specialist Dmitri Bagh has utilized Ollama within FME to input data, create custom models, and enhance security protocols. This segment will include demos to illustrate the full capabilities of FME in AI-driven processes.
Custom AI Models: Discover how to leverage FME to build personalized AI models using your data. Whether it’s populating a model with local data for added security or integrating public AI tools, find out how FME facilitates a versatile and secure approach to AI.
We’ll wrap up with a live Q&A session where you can engage with our experts on your specific use cases, and learn more about optimizing your data workflows with AI.
This webinar is ideal for professionals seeking to harness the power of AI within their data management systems while ensuring high levels of customization and security. Whether you're a novice or an expert, gain actionable insights and strategies to elevate your data processes. Join us to see how FME and AI can revolutionize how you work with data!
Main news related to the CCS TSI 2023 (2023/1695)Jakub Marek
An English 🇬🇧 translation of a presentation to the speech I gave about the main changes brought by CCS TSI 2023 at the biggest Czech conference on Communications and signalling systems on Railways, which was held in Clarion Hotel Olomouc from 7th to 9th November 2023 (konferenceszt.cz). Attended by around 500 participants and 200 on-line followers.
The original Czech 🇨🇿 version of the presentation can be found here: https://www.slideshare.net/slideshow/hlavni-novinky-souvisejici-s-ccs-tsi-2023-2023-1695/269688092 .
The videorecording (in Czech) from the presentation is available here: https://youtu.be/WzjJWm4IyPk?si=SImb06tuXGb30BEH .
Taking AI to the Next Level in Manufacturing.pdfssuserfac0301
Read Taking AI to the Next Level in Manufacturing to gain insights on AI adoption in the manufacturing industry, such as:
1. How quickly AI is being implemented in manufacturing.
2. Which barriers stand in the way of AI adoption.
3. How data quality and governance form the backbone of AI.
4. Organizational processes and structures that may inhibit effective AI adoption.
6. Ideas and approaches to help build your organization's AI strategy.
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2024/06/temporal-event-neural-networks-a-more-efficient-alternative-to-the-transformer-a-presentation-from-brainchip/
Chris Jones, Director of Product Management at BrainChip , presents the “Temporal Event Neural Networks: A More Efficient Alternative to the Transformer” tutorial at the May 2024 Embedded Vision Summit.
The expansion of AI services necessitates enhanced computational capabilities on edge devices. Temporal Event Neural Networks (TENNs), developed by BrainChip, represent a novel and highly efficient state-space network. TENNs demonstrate exceptional proficiency in handling multi-dimensional streaming data, facilitating advancements in object detection, action recognition, speech enhancement and language model/sequence generation. Through the utilization of polynomial-based continuous convolutions, TENNs streamline models, expedite training processes and significantly diminish memory requirements, achieving notable reductions of up to 50x in parameters and 5,000x in energy consumption compared to prevailing methodologies like transformers.
Integration with BrainChip’s Akida neuromorphic hardware IP further enhances TENNs’ capabilities, enabling the realization of highly capable, portable and passively cooled edge devices. This presentation delves into the technical innovations underlying TENNs, presents real-world benchmarks, and elucidates how this cutting-edge approach is positioned to revolutionize edge AI across diverse applications.
Dandelion Hashtable: beyond billion requests per second on a commodity serverAntonios Katsarakis
This slide deck presents DLHT, a concurrent in-memory hashtable. Despite efforts to optimize hashtables, that go as far as sacrificing core functionality, state-of-the-art designs still incur multiple memory accesses per request and block request processing in three cases. First, most hashtables block while waiting for data to be retrieved from memory. Second, open-addressing designs, which represent the current state-of-the-art, either cannot free index slots on deletes or must block all requests to do so. Third, index resizes block every request until all objects are copied to the new index. Defying folklore wisdom, DLHT forgoes open-addressing and adopts a fully-featured and memory-aware closed-addressing design based on bounded cache-line-chaining. This design offers lock-free index operations and deletes that free slots instantly, (2) completes most requests with a single memory access, (3) utilizes software prefetching to hide memory latencies, and (4) employs a novel non-blocking and parallel resizing. In a commodity server and a memory-resident workload, DLHT surpasses 1.6B requests per second and provides 3.5x (12x) the throughput of the state-of-the-art closed-addressing (open-addressing) resizable hashtable on Gets (Deletes).
This presentation provides valuable insights into effective cost-saving techniques on AWS. Learn how to optimize your AWS resources by rightsizing, increasing elasticity, picking the right storage class, and choosing the best pricing model. Additionally, discover essential governance mechanisms to ensure continuous cost efficiency. Whether you are new to AWS or an experienced user, this presentation provides clear and practical tips to help you reduce your cloud costs and get the most out of your budget.
Digital Banking in the Cloud: How Citizens Bank Unlocked Their MainframePrecisely
Inconsistent user experience and siloed data, high costs, and changing customer expectations – Citizens Bank was experiencing these challenges while it was attempting to deliver a superior digital banking experience for its clients. Its core banking applications run on the mainframe and Citizens was using legacy utilities to get the critical mainframe data to feed customer-facing channels, like call centers, web, and mobile. Ultimately, this led to higher operating costs (MIPS), delayed response times, and longer time to market.
Ever-changing customer expectations demand more modern digital experiences, and the bank needed to find a solution that could provide real-time data to its customer channels with low latency and operating costs. Join this session to learn how Citizens is leveraging Precisely to replicate mainframe data to its customer channels and deliver on their “modern digital bank” experiences.
Monitoring and Managing Anomaly Detection on OpenShift.pdfTosin Akinosho
Monitoring and Managing Anomaly Detection on OpenShift
Overview
Dive into the world of anomaly detection on edge devices with our comprehensive hands-on tutorial. This SlideShare presentation will guide you through the entire process, from data collection and model training to edge deployment and real-time monitoring. Perfect for those looking to implement robust anomaly detection systems on resource-constrained IoT/edge devices.
Key Topics Covered
1. Introduction to Anomaly Detection
- Understand the fundamentals of anomaly detection and its importance in identifying unusual behavior or failures in systems.
2. Understanding Edge (IoT)
- Learn about edge computing and IoT, and how they enable real-time data processing and decision-making at the source.
3. What is ArgoCD?
- Discover ArgoCD, a declarative, GitOps continuous delivery tool for Kubernetes, and its role in deploying applications on edge devices.
4. Deployment Using ArgoCD for Edge Devices
- Step-by-step guide on deploying anomaly detection models on edge devices using ArgoCD.
5. Introduction to Apache Kafka and S3
- Explore Apache Kafka for real-time data streaming and Amazon S3 for scalable storage solutions.
6. Viewing Kafka Messages in the Data Lake
- Learn how to view and analyze Kafka messages stored in a data lake for better insights.
7. What is Prometheus?
- Get to know Prometheus, an open-source monitoring and alerting toolkit, and its application in monitoring edge devices.
8. Monitoring Application Metrics with Prometheus
- Detailed instructions on setting up Prometheus to monitor the performance and health of your anomaly detection system.
9. What is Camel K?
- Introduction to Camel K, a lightweight integration framework built on Apache Camel, designed for Kubernetes.
10. Configuring Camel K Integrations for Data Pipelines
- Learn how to configure Camel K for seamless data pipeline integrations in your anomaly detection workflow.
11. What is a Jupyter Notebook?
- Overview of Jupyter Notebooks, an open-source web application for creating and sharing documents with live code, equations, visualizations, and narrative text.
12. Jupyter Notebooks with Code Examples
- Hands-on examples and code snippets in Jupyter Notebooks to help you implement and test anomaly detection models.
Digital Marketing Trends in 2024 | Guide for Staying AheadWask
https://www.wask.co/ebooks/digital-marketing-trends-in-2024
Feeling lost in the digital marketing whirlwind of 2024? Technology is changing, consumer habits are evolving, and staying ahead of the curve feels like a never-ending pursuit. This e-book is your compass. Dive into actionable insights to handle the complexities of modern marketing. From hyper-personalization to the power of user-generated content, learn how to build long-term relationships with your audience and unlock the secrets to success in the ever-shifting digital landscape.
TrustArc Webinar - 2024 Global Privacy SurveyTrustArc
How does your privacy program stack up against your peers? What challenges are privacy teams tackling and prioritizing in 2024?
In the fifth annual Global Privacy Benchmarks Survey, we asked over 1,800 global privacy professionals and business executives to share their perspectives on the current state of privacy inside and outside of their organizations. This year’s report focused on emerging areas of importance for privacy and compliance professionals, including considerations and implications of Artificial Intelligence (AI) technologies, building brand trust, and different approaches for achieving higher privacy competence scores.
See how organizational priorities and strategic approaches to data security and privacy are evolving around the globe.
This webinar will review:
- The top 10 privacy insights from the fifth annual Global Privacy Benchmarks Survey
- The top challenges for privacy leaders, practitioners, and organizations in 2024
- Key themes to consider in developing and maintaining your privacy program
5th LF Energy Power Grid Model Meet-up SlidesDanBrown980551
5th Power Grid Model Meet-up
It is with great pleasure that we extend to you an invitation to the 5th Power Grid Model Meet-up, scheduled for 6th June 2024. This event will adopt a hybrid format, allowing participants to join us either through an online Mircosoft Teams session or in person at TU/e located at Den Dolech 2, Eindhoven, Netherlands. The meet-up will be hosted by Eindhoven University of Technology (TU/e), a research university specializing in engineering science & technology.
Power Grid Model
The global energy transition is placing new and unprecedented demands on Distribution System Operators (DSOs). Alongside upgrades to grid capacity, processes such as digitization, capacity optimization, and congestion management are becoming vital for delivering reliable services.
Power Grid Model is an open source project from Linux Foundation Energy and provides a calculation engine that is increasingly essential for DSOs. It offers a standards-based foundation enabling real-time power systems analysis, simulations of electrical power grids, and sophisticated what-if analysis. In addition, it enables in-depth studies and analysis of the electrical power grid’s behavior and performance. This comprehensive model incorporates essential factors such as power generation capacity, electrical losses, voltage levels, power flows, and system stability.
Power Grid Model is currently being applied in a wide variety of use cases, including grid planning, expansion, reliability, and congestion studies. It can also help in analyzing the impact of renewable energy integration, assessing the effects of disturbances or faults, and developing strategies for grid control and optimization.
What to expect
For the upcoming meetup we are organizing, we have an exciting lineup of activities planned:
-Insightful presentations covering two practical applications of the Power Grid Model.
-An update on the latest advancements in Power Grid -Model technology during the first and second quarters of 2024.
-An interactive brainstorming session to discuss and propose new feature requests.
-An opportunity to connect with fellow Power Grid Model enthusiasts and users.
3. • A flexible display is a display which is flexible in
nature;
• differentiable from the more prevalent traditional
flat screen displays used in most electronics
devices.
• It is suitable for simple operations in application
software and opens up new possibilities for
flexible displays to be used as user-interface
devices.
6. •The concept of developing a
flexible display was first put
forth by xerox PARC(palo
alto research company ) ,in
1974,Nicholas K. Sheridan ,a
PARC employee made a
major breakthrough in
flexible display technology
and produced the first
flexible e paper display.
7. •IN 2005,Arizona State
University opened a
250000 square foot
facility dedicated to
flexible display research
named the ASU flexible
display centre (FDC).
December 2008,ASU in
partnership with hewlett
Packard demonstrated
a prototype flexible e-
paper from flexible e
paper from flexible
display centre at
university.
11. •Flexible displays uses Electrophoretic or electrowetting
technologies.
•The screens are made by layering stacks of semi-
conductor materials and metal between pliable plastic
sheets.these displays are unbreakable ,flexible and
rollable
12. •A flexible organic light emitting diode (FOLED) is a
type of organic light-emitting diode (OLED)
incorporating a flexible plastic substrate on which
the electroluminescent organic semiconductor is
deposited. This enables the device to be bent or
rolled while still operating. The organic
semiconductor is situated between two electrodes.
Generally, at least one of these electrodes is
transparent. An OLED display works without
a backlight
13.
14. Advantages
• Slimness: With no need for bulky glass, flexible displays are
significantly slimmer, allowing for the thinnest displays
we’ve ever seen.
• Weight: Without glass, flexible displays are significantly
lighter.
• Durability: With no glass to shatter, flexible displays are
pretty much invincible to the normal drops and bumps we
inflict on our prized devices (see video below).
• In the long-term – they should be cheaper. Maybe not to
produce… but the relative thinness and lightness of flexible
displays means more of them can fit into one shipping
container. That means they should be cheaper to ship, and
cheaper to buy.
16. •In the future,as things mature,we will be able
to roll displays up to have a pen-like device
that unrolls to provide a larger screen.It’ an
exciting future,to be sure.
•Still no design team of any company has
experience around designing for flexible
designs yet,it’s still too new.They need to
think about how to take advantage of flexible
displays in new product design.That’s a
challenge for the industry generally,to rise to
the challenge.
17. • Revolution in OLED TV
• LG is going to release a ROLL UP TV using of
OLED .
• NOKIA is developing smartphones using MORPH
Concept(in this use of flexible technology is
needed ).
18. • FLEX ENABLES is going to make Flexible
fingerprint sensors using OTFT(organic thin film
transistor )concept .
19. •Flexible displays and flexible sensors
will transform wearable technology by
enabling devices to conform to our
bodies and our clothes while offering
greater utility.
20. • It is estimated that the flexible display market will
grow to $1.1 billion in 2015 and will continue to
develop at rate of 226% to $42 billion by the end
of 2020.
21. Conclusion
•There are plenty of advancements to be done in
the flexible displays.
•We are still waiting for a full fledged flexible
smartphone.With foldable,rollable and stretchable
screens,the industry can introduce plenty of new
form factors.
•This will include more curved screens and
possibly even scrolls or book-shaped tablets.That
will a surprise for us to see in the future.
•Flexible electronic displays have the opportunity
to revolutionise an industry.