February 25, 2013
SUNNYVALE, Calif., Feb. 25 – AMD today announced the arrival of the AMD FirePro R5000 remote graphics card, a flexible, manageable solution designed and engineered to power remote 3D-graphics workflows and full computing experiences over IP networks. The energy-, space- and cost-efficient AMD FirePro R5000 is the ideal solution for IT managers operating in data center environments where limited space, power budgets and cooling costs pose a constant challenge.
The AMD FirePro R5000 combines AMD's Graphics Core Next (GCN) Architecture with Teradici's PCoIP technology, and delivers a 3D experience with low latency transmission – ideal for mid-range multimonitor endpoints such as those used by CAD, medical imaging and financial services professionals. The AMD FirePro R5000 also complements IT security protocols by safeguarding corporate IP, since critical information never leaves the data center.
"IT professionals are looking for a secure and straight forward cloud-based graphics solution that delivers core functionality capable of adapting to meet each employee's unique graphics needs," said David Cummings, senior director and general manager of AMD Professional Graphics. "The AMD FirePro R5000 meets these needs, delivering the flexibility, functionality, security and industry-leading graphics capabilities companies look for when deciding on a remote graphics solution."
AMD FirePro R5000 Remote Graphics Features and Benefits
"With the introduction of the AMD FirePro R5000 with Teradici PCoIP processor, IT departments now have powerful centralized computing solutions that are easy to manage, and deliver the graphics performance required to handle high resolution images, video and 3D models with ease," said Trent Punnett, vice president of Product Management, System Engineering and Corporate Development at Teradici. "In addition, the AMD FirePro R5000 can be brokered and managed by VMware View giving a common broker and management window across both workstation and VDI desktops, and works with PCoIP zero clients that are offered by an ecosystem of over 30 OEMs."
The AMD FirePro R5000 is rigorously tested by AMD to ensure readiness for demanding professional use. It is a durable remote graphics solution intended to increase asset utilization density, meet real-world workloads and ultimately help IT minimize operating costs and time spent on servicing individual systems.
"Tasked with finding a thin client solution capable accelerating real-time 2D and basic 3D graphics for game development and computer animation classes, we turned to AMD's first generation remote graphics product, the ATI FirePr RG220," said Mahesh Neelakanta, director of the Technical Services Group, Florida Atlantic University. "Not only were we able to conserve energy and save time on system maintenance, the graphics cards were able to handle video, 2D images and animations, and 3D elements without bogging down the system or noticeable pixelation. Offering a more powerful GPU, four times the memory and nearly eight times the memory bandwidth of the RG220, the R5000 will allow us to deploy remote systems for our more advanced classes and configure multimonitor set ups our students will eventually encounter in the workplace."
Backed by a three-year warranty and planned three-year minimum lifecycle, the AMD FirePro R5000 will be available from select retailers and channel partners.
AMD is a semiconductor design innovator leading the next era of vivid digital experiences with its groundbreaking AMD Accelerated Processing Units (APUs) that power a wide range of computing devices. AMD's server computing products are focused on driving industry-leading cloud computing and virtualization environments. AMD's superior graphics technologies are found in a variety of solutions ranging from game consoles, PCs to supercomputers.
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he study of climate change is one of those scientific problems where it is almost essential to model the entire Earth to attain accurate results and make worthwhile predictions. In an attempt to make climate science more accessible to smaller research facilities, NASA introduced what they call ‘Climate in a Box,’ a system they note acts as a desktop supercomputer.
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