Tham khảo tài liệu 'adc krone - case study - 10gbase-t - syncronees', công nghệ thông tin, quản trị mạng phục vụ nhu cầu học tập, nghiên cứu và làm việc hiệu quả | SYNCRONESS CHOOSES ADC’S REVOLUTIONARY COPPERTEN™ 10-GIGABIT ETHERNET UTP CABLING FOR NEW HEADQUARTERS Designing leading-edge products with lead- ing-edge tools; there is hardly a more precise statement to illustrate why Syncroness has emerged as a global player in new product development. It also explains why the firm chose ADC to provide high-performance cabling infrastructure for its new corporate headquarters in Westminster, Colorado. “Our business is totally dependant upon our number one tool – computer power,” said Jörg Lorsheider, Syncroness’ director of business development and sales. “Our network has to be operational at peak proficiency 100 percent of the time and that means it needs to work quickly. When we considered the available choices for high-performance Ethernet cabling, we found that ADC’s new CopperTen system has capabilities far beyond anything else on the market.” COLOSSAL FILES REQUIRE ENORMOUS CAPABILITIES CASE STUDY Syncroness employs more than 30 mechanical engineers who use the most- advanced computer-aided design (CAD) software to invent or improve a wide variety of products; from golf clubs to exercise machines, medical devices to products used in space exploration. With offices in Irvine, California and Kuala Lumpur, Malaysia, Syncroness engineers create and share immense amounts of data among themselves and their clients around the world. “We operate a variety of different CAD systems that require us to transfer multi- megabit files all over the place,” said Lorscheider. “In fact, we generate 25 gigs of new or revised data each week and, for a business of this size, that’s a lot of data. That’s more than a lot of big com- panies generate.” Syncroness also utilizes complex simulation software to perform fluid dynamics compu- tations and structural and thermal analyses on products. These processes rely on dis- tributed computing to combine the resources of several separate processors while consuming large amounts of band- width in order