{ "items": [ { "title": "Greener lifestyle with efficient bandwidth and spectrum use", "description": "In this demonstration we will show how people can save energy when going shopping by receiving information on what stores have the items they want to buy and following the route that takes them to the stores faster, saving fuel. We will also show how people can get the appropriate bandwidth for the vehicle entertainment system to do what the occupants want (for instance stream an HD movie), and how they can dynamically get more bandwidth if they need it to deliver a better user experience", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.0MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114649615_449be5ddba_o.jpg" } }, { "title": "Gaming as a way of life for diabetic children", "description": "In this demonstration we are showing an Intel Classmate PC hosting a system to help children cope with diabetes, through the use of fun and stimulating games. This "gamification" approach can potentially be used with other chronic conditions as well. The system was developed by Schneider Hospital and Compedia in collaboration with Intel.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.7MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114659218_11b27cbce7_o.jpg" } }, { "title": "Gaming as a way of life for diabetic children", "description": "In this demonstration we are showing an Intel Classmate PC hosting a system to help children cope with diabetes, through the use of fun and stimulating games. This "gamification" approach can potentially be used with other chronic conditions as well. The system was developed by Schneider Hospital and Compedia in collaboration with Intel.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.7MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114650483_831eb68c49_o.jpg" } }, { "title": "Display without boundaries", "description": "This technology uses unique algorithms to transform any surface in a home or work place into an interactive display. Intel researchers show how their software allows seamless integration of images from multiple sources, and how it can wrap the images around objects and corner surfaces in a home. Experiences like this will enable new abilities to share, interact with and display objects in new ways.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.3MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114650919_6f4ac578bc_o.jpg" } }, { "title": "Display without boundaries", "description": "This technology uses unique algorithms to transform any surface in a home or work place into an interactive display. Intel researchers show how their software allows seamless integration of images from multiple sources, and how it can wrap the images around objects and corner surfaces in a home. Experiences like this will enable new abilities to share, interact with and display objects in new ways.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.4MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114660672_7e72756212_o.jpg" } }, { "title": "Display without boundaries", "description": "This technology uses unique algorithms to transform any surface in a home or work place into an interactive display. Intel researchers show how their software allows seamless integration of images from multiple sources, and how it can wrap the images around objects and corner surfaces in a home. Experiences like this will enable new abilities to share, interact with and display objects in new ways.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.1MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114661268_7d02fdeeba_o.jpg" } }, { "title": "Display without boundaries", "description": "This technology uses unique algorithms to transform any surface in a home or work place into an interactive display. Intel researchers show how their software allows seamless integration of images from multiple sources, and how it can wrap the images around objects and corner surfaces in a home. Experiences like this will enable new abilities to share, interact with and display objects in new ways.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.5MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114652677_157c685f73_o.jpg" } }, { "title": "Visualizing Complex Work", "description": "This research shows how visual analytics can help make sense of overwhelming amounts of data from complex environments. Through three application examples, the demonstration provides an insight into how analysis of large and dynamic data sets plays a key role in the modern workplace to identify patterns, explore relationships and make decisions in different scenarios.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.1MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114662224_2212ce5391_o.jpg" } }, { "title": "Visualizing Complex Work", "description": "This research shows how visual analytics can help make sense of overwhelming amounts of data from complex environments. Through three application examples, the demonstration provides an insight into how analysis of large and dynamic data sets plays a key role in the modern workplace to identify patterns, explore relationships and make decisions in different scenarios.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.1MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114662692_727d81c0c8_o.jpg" } }, { "title": "Many-Screen Displays", "description": "The Intel Visual Computing Institute is researching better ways to link multiple screens together to create a much larger, ultra-high resolution display for “big data” visualization of scientific, medical, or business information. This high performance prototype can easily link off-the-shelf monitors as well as tablets, smartphones, and other devices into immersive displays spanning a wall or even an entire room.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.2MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114654207_b300cdb3b5_o.jpg" } }, { "title": "Many-Screen Displays", "description": "The Intel Visual Computing Institute is researching better ways to link multiple screens together to create a much larger, ultra-high resolution display for “big data” visualization of scientific, medical, or business information. This high performance prototype can easily link off-the-shelf monitors as well as tablets, smartphones, and other devices into immersive displays spanning a wall or even an entire room.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"1.9MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114663602_e95c2b8881_o.jpg" } }, { "title": "Open Cloud Computing", "description": "Intel Labs Europe has co-developed a new global technology standard that will help cloud service providers take better advantage of third-party cloud computing resources. The Open Cloud Computing Interface (OCCI) aims to allow these enterprises to develop single cloud applications, which can then be hosted by any cloud datacenter – providing greater choice, flexibility, and scalability than today.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.0MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114655063_47dbd2f20c_o.jpg" } }, { "title": "Open Cloud Computing", "description": "Intel Labs Europe has co-developed a new global technology standard that will help cloud service providers take better advantage of third-party cloud computing resources. The Open Cloud Computing Interface (OCCI) aims to allow these enterprises to develop single cloud applications, which can then be hosted by any cloud datacenter – providing greater choice, flexibility, and scalability than today.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"1.9MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114664462_853a564278_o.jpg" } }, { "title": "Benefits of Emerging Memories", "description": "Future memory technologies will combine the speed of DRAM with the persistence of Flash. This research from Intel Labs Barcelona shows how applications such as email clients could translate these future data storage capabilities into faster response times and new “always-on” experiences for both personal and professional devices.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.0MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114664936_037c87c5cc_o.jpg" } }, { "title": "Benefits of Emerging Memories", "description": "Future memory technologies will combine the speed of DRAM with the persistence of Flash. This research from Intel Labs Barcelona shows how applications such as email clients could translate these future data storage capabilities into faster response times and new “always-on” experiences for both personal and professional devices.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.4MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114656465_d773169ecf_o.jpg" } }, { "title": "Multi-core in your car", "description": "As cars continue to get smarter, more powerful “brains” will be needed to run ever more sophisticated applications. This demo shows ongoing work on using multi-core systems targeted at applications such as in-vehicle infotainment. Using virtualization on multi-core processors, future cars could run multiple functions, such as entertainment, navigation and connectivity, simultaneously on a single processor. This technology could lead to new features and applications in and around future cars.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.0MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114666448_6cdd6c3314_o.jpg" } }, { "title": "Multi-core in your car", "description": "As cars continue to get smarter, more powerful “brains” will be needed to run ever more sophisticated applications. This demo shows ongoing work on using multi-core systems targeted at applications such as in-vehicle infotainment. Using virtualization on multi-core processors, future cars could run multiple functions, such as entertainment, navigation and connectivity, simultaneously on a single processor. This technology could lead to new features and applications in and around future cars.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.3MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114667602_3277fbf1b0_o.jpg" } }, { "title": "Multi-core in your car", "description": "As cars continue to get smarter, more powerful “brains” will be needed to run ever more sophisticated applications. This demo shows ongoing work on using multi-core systems targeted at applications such as in-vehicle infotainment. Using virtualization on multi-core processors, future cars could run multiple functions, such as entertainment, navigation and connectivity, simultaneously on a single processor. This technology could lead to new features and applications in and around future cars.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"1.9MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114667978_f7d1190f16_o.jpg" } }, { "title": "Greener lifestyle with efficient bandwidth and spectrum use", "description": "In this demonstration we will show how people can save energy when going shopping by receiving information on what stores have the items they want to buy and following the route that takes them to the stores faster, saving fuel. We will also show how people can get the appropriate bandwidth for the vehicle entertainment system to do what the occupants want (for instance stream an HD movie), and how they can dynamically get more bandwidth if they need it to deliver a better user experience", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.0MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114668320_2f97305ccb_o.jpg" } }, { "title": "At the core of Exascale", "description": "Reaching Exascale performance requires innovation in system architecture as well as in programming models for extreme parallelism. The DEEP project funded by the European commission combines a standard Intel® Xeon based HPC Cluster with an extremely scalable and energy efficient booster built out of Intel® Xeon PhiTM coprocessors. It also develops a novel programming paradigm based on the Barcelona Supercomputing Center’s OmpSs tasking model, which leverages the Xeon Cluster’s superior performance. The demo explains the approach, and for the first time shows the OmpSs programming model running on an Intel® Xeon Phi system. ", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.3MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114668748_aa08fbab47_o.jpg" } }, { "title": "At the core of Exascale", "description": "Reaching Exascale performance requires innovation in system architecture as well as in programming models for extreme parallelism. The DEEP project funded by the European commission combines a standard Intel® Xeon based HPC Cluster with an extremely scalable and energy efficient booster built out of Intel® Xeon PhiTM coprocessors. It also develops a novel programming paradigm based on the Barcelona Supercomputing Center’s OmpSs tasking model, which leverages the Xeon Cluster’s superior performance. The demo explains the approach, and for the first time shows the OmpSs programming model running on an Intel® Xeon Phi system. ", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.3MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114669244_3662be9253_o.jpg" } }, { "title": "More Game, Less Drain", "description": "Mobile gaming is a fun way to pass the time until you realize your phone has died halfway through the day. Intel Labs Barcelona wants to prevent this from happening by inventing a new, low-power GPU architecture that can sustain stunning graphics experiences much longer. Researchers simulate how this concept design would fare against the state-of-the-art systems on popular games.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.0MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114669646_2e294d5f49_o.jpg" } }, { "title": "More Game, Less Drain", "description": "Mobile gaming is a fun way to pass the time until you realize your phone has died halfway through the day. Intel Labs Barcelona wants to prevent this from happening by inventing a new, low-power GPU architecture that can sustain stunning graphics experiences much longer. Researchers simulate how this concept design would fare against the state-of-the-art systems on popular games.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.4MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114670158_a24139c236_o.jpg" } }, { "title": "Trusted virtual smartcards", "description": "In this demo we will show how to use Intel Trusted Execution Technology to create a virtual smartcard that can be used in multiple devices. Instead of integrating a smartcard reader and corresponding smartcards as hardware, this prototype demonstrates how we can create software-only version instead, allowing for the flexibility of a smartcard without actually integrating the hardware.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.2MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114661579_e82d8ce43b_o.jpg" } }, { "title": "Trusted virtual smartcards", "description": "In this demo we will show how to use Intel Trusted Execution Technology to create a virtual smartcard that can be used in multiple devices. Instead of integrating a smartcard reader and corresponding smartcards as hardware, this prototype demonstrates how we can create software-only version instead, allowing for the flexibility of a smartcard without actually integrating the hardware.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.3MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114662069_8888f2bae8_o.jpg" } }, { "title": "User-aware Many-core Devices", "description": "This demo envisions a future 48-core mobile device emulated by the Single-chip Cloud Computer (SCC). Within the device an experimental, application-aware software system optimizes user experiences by assigning cores to various apps at the right speeds and voltages. This fine-grained power management would keep high priority apps running, save power when apps are idle, and extend battery life.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.4MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114671880_1512504463_o.jpg" } }, { "title": "User-aware Many-core Devices", "description": "This demo envisions a future 48-core mobile device emulated by the Single-chip Cloud Computer (SCC). Within the device an experimental, application-aware software system optimizes user experiences by assigning cores to various apps at the right speeds and voltages. This fine-grained power management would keep high priority apps running, save power when apps are idle, and extend battery life.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.3MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114672386_08f5ee6c34_o.jpg" } }, { "title": "Open Cloud Computing", "description": "Intel Labs Europe has co-developed a new global technology standard that will help cloud service providers take better advantage of third-party cloud computing resources. The Open Cloud Computing Interface (OCCI) aims to allow these enterprises to develop single cloud applications, which can then be hosted by any cloud datacenter – providing greater choice, flexibility, and scalability than today.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"1.9MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114663679_71d99c5426_o.jpg" } }, { "title": "Open Cloud Computing", "description": "Intel Labs Europe has co-developed a new global technology standard that will help cloud service providers take better advantage of third-party cloud computing resources. The Open Cloud Computing Interface (OCCI) aims to allow these enterprises to develop single cloud applications, which can then be hosted by any cloud datacenter – providing greater choice, flexibility, and scalability than today.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.0MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114673146_e78fbedcc7_o.jpg" } }, { "title": "Realizing 3D Web Scanning", "description": "This demo shows how anyone will soon be able to ‘scan’ objects from the real world and turn them into a 3D models for web applications such as retail or sharing on social networks. This research from Intel/Nokia Joint Venture Lab in University of Oulu explores innovations in content capture, user interfaces, and Internet systems with the goal of making 3D content as common on the web as video, images, and text.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.1MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114664377_d3f9010ddd_o.jpg" } }, { "title": "CityWatch: Citizen-powered better living", "description": "This research area looks at how to use the integrated sensors found in people’s smart mobile devices and social media to recognize and infer potential urban scale commuter, environmental or weather related events . This would allow for a quicker deployment of city services and diminish the effect of these problems on people’s daily lives. The demonstration will include an online map showing the effect of events across critical infrastructures and their associated effect on a city. This project is in collaboration with Trinity College Dublin, and the Dublin City Council.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.1MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114664781_4c5bcde223_o.jpg" } }, { "title": "CityWatch: Citizen-powered better living", "description": "This research area looks at how to use the integrated sensors found in people’s smart mobile devices and social media to recognize and infer potential urban scale commuter, environmental or weather related events . This would allow for a quicker deployment of city services and diminish the effect of these problems on people’s daily lives. The demonstration will include an online map showing the effect of events across critical infrastructures and their associated effect on a city. This project is in collaboration with Trinity College Dublin, and the Dublin City Council.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.1MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114674448_ef819a0762_o.jpg" } }, { "title": "Intel Ambient Intelligence Platform", "description": "Imagine a future where everything around you is connected to the Internet. The flood of data coming at people will be difficult to make sense of. In this demo, researchers will show the Intel Ambient Intelligence Platform, a technology that enables data to be integrated to provide context and insight. The technology would allow people to use data in new ways, allowing them to interact with their cities, their homes and their environment in useful and novel ways.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"2.1MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114665917_2f255e3a28_o.jpg" } }, { "title": "Intel Ambient Intelligence Platform", "description": "Imagine a future where everything around you is connected to the Internet. The flood of data coming at people will be difficult to make sense of. In this demo, researchers will show the Intel Ambient Intelligence Platform, a technology that enables data to be integrated to provide context and insight. The technology would allow people to use data in new ways, allowing them to interact with their cities, their homes and their environment in useful and novel ways.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"1.6MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8114675460_c21eb34bc3_o.jpg" } }, { "title": "Doctoral Student Honor Programme Awardees", "description": "Intel University Program Office: 2012 Doctoral Student Honor Programme Awardees", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"1.4MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8139770791_efd1301a6c_o.jpg" } }, { "title": "Early Career Faculty Honor Program Awardees", "description": "Intel University Program Office: 2012 Early Career Faculty Honor Program Awardees", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"1.5MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8139770955_2e32612124_o.jpg" } }, { "title": "Justin Rattner", "description": "Intel Chief Technology Officer and Director of Intel Labs, Justin Rattner speaking at Research@Intel Europe.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"0.9MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8139804648_1550e1434c_o.jpg" } }, { "title": "Justin Rattner", "description": "Intel Chief Technology Officer and Director of Intel Labs, Justin Rattner speaking at Research@Intel Europe.", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"0.9MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8139773549_e31a69e278_o.jpg" } }, { "title": "Martin Curley", "description": "Intel Vice President and Director of Intel Labs Europe, Martin Curley, speaking at Research@Intel Europe", "tags": "Intel_Newsroom, Research Intel Europe", "photosize":"1.8MB", "media": { "m": "EMEA/Europe/Events/R-I_Europe_2012/pictures/8139774783_0b5bc6878a_o.jpg" } }, { "title": "test", "description": "test", "tags": "test", "photosize":"test", "media": { "m": "test" } } ] }