PC Cooling is a very serious matter with today's computers. PC & Server cooling is an essential part of your computers needs. Without the proper system cooling, CPU cooling, Video Card Cooling, Mother Board Cooling, Hard Drive Cooling, and Ram Chip cooling the life expectancy of your PC & Server will be cut short. You can spend so much extra money trying to fix each overheating problem you have or you can look into our new line of System coolers that tackle all of these needs in one easy to use Tower PC & Server Cooling System.
Without proper air flow cooling, your computer hardware suffers from overheating. This overheating causes slow downs, system error messages, and crashing. Also, the life expectancy of your PC's components will greatly diminish.
* CPU Cooling
* Video Card Cooling,
* Mother Board Cooling
* System Ram Cooling
* Hard Drive Cooling.
Other manufactures have come up with some very unique and interesting ideas on how you can better cool a component in your computer system. We have tested some of these devices and as some do work for what they are made to do you could spend a lot of money to cover your complete computer system or you can purchase one system that does it all! Cooler
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Corsair Water Cooling System
Monday, January 26, 2009
Saturday, January 17, 2009
MOBILITY AND ROBOTIC SYSTEMS
Richard Volpe, Manager
Gabriel Udomkesmalee, Deputy Manager
Welcome to the JPL Robotics website! Here you'll find detailed descriptions of the activities of the Mobility and Robotic Systems Section, as well as related robotics efforts around the Jet Propulsion Laboratory. We are approximately 100 engineers working on all aspects of robotics for space exploration and related terrestrial applications. We write autonomy software that drives rovers on Mars, and operations software to monitor and control them from Earth. We do the same for their instrument-placement and sampling arms, and are developing new systems with many limbs for walking and climbing. To achieve mobility off the surface, we are creating prototypes of airships to fly through the atmospheres of Titan and Venus, and drills and probes to go underground on Mars and Europa.
To enable all of these robots to interact with their surroundings, we make them see with cameras and measure their environments with other sensors. Based on these measurements, the robots control themselves with algorithms also developed by our research teams. We capture the control-and-sensor-processing software in unifying frameworks, which enable reuse and transfer among our projects. In the course of developing this technology, we build real end-to-end systems as well as high-fidelity simulations of how the robots will work on worlds we are planning to visit.
Please use the menu at left to navigate to the view of our work that is most important to you. Our application domains are described in general terms, and then specifically in the context of flight projects and research tasks. Personnel are described in terms of the groups that constitute the section, as well as the people who constitute the groups. Most of our major robot systems are described, as are the laboratory facilities in which they are developed and exercised. For more detailed information, our publications may be accessed through a search engine, or more recent news may be browsed. Finally, to provide context to our current work, our charter is documented, the history of JPL robotics is described, and links to other related work are provided.
Gabriel Udomkesmalee, Deputy Manager
Welcome to the JPL Robotics website! Here you'll find detailed descriptions of the activities of the Mobility and Robotic Systems Section, as well as related robotics efforts around the Jet Propulsion Laboratory. We are approximately 100 engineers working on all aspects of robotics for space exploration and related terrestrial applications. We write autonomy software that drives rovers on Mars, and operations software to monitor and control them from Earth. We do the same for their instrument-placement and sampling arms, and are developing new systems with many limbs for walking and climbing. To achieve mobility off the surface, we are creating prototypes of airships to fly through the atmospheres of Titan and Venus, and drills and probes to go underground on Mars and Europa.
To enable all of these robots to interact with their surroundings, we make them see with cameras and measure their environments with other sensors. Based on these measurements, the robots control themselves with algorithms also developed by our research teams. We capture the control-and-sensor-processing software in unifying frameworks, which enable reuse and transfer among our projects. In the course of developing this technology, we build real end-to-end systems as well as high-fidelity simulations of how the robots will work on worlds we are planning to visit.
Please use the menu at left to navigate to the view of our work that is most important to you. Our application domains are described in general terms, and then specifically in the context of flight projects and research tasks. Personnel are described in terms of the groups that constitute the section, as well as the people who constitute the groups. Most of our major robot systems are described, as are the laboratory facilities in which they are developed and exercised. For more detailed information, our publications may be accessed through a search engine, or more recent news may be browsed. Finally, to provide context to our current work, our charter is documented, the history of JPL robotics is described, and links to other related work are provided.
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