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Surely, Xeon X3450 and especially X3440 are more interesting for overclockers than Core i7 860 (cheaper, easier to overclock, demonstrate similar results at the same frequencies) or i5 750 (faster at the same frequencies). This is a curious phenomenon, considering that Xeons are designed for servers and workstations.
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Intel Xeon 5680 Chips served on a eVGA SR2 @ KitGuru
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Mit dem Xeon E3-1230 v3 hat Intel eine eher unscheinbare Server-CPU im Portfolio, die jedoch viel mehr kann. Für nur 200 Euro tritt sie mit Core-i7-Leistung gegen die Core i5 an.
CPU
Intel’s Xeon E3-1230Lv3 CPU has been a hotly anticipated processor for a wide variety of target audiences – home users, office users, small business users and enterprise users. Today we’ve got an opportunity to put Intel’s enterprise Xeon E3-1230Lv3 CPU to the test in a professional home user or “prosumer” type of environment, by pairing it up with SuperMicro’s server-grade C7Z87-OCE motherboard. The Intel Xeon E3-1230Lv3 is an important CPU because it offers four cores, eight threads, a 1.8GHz base frequency, a 2.8GHz Turbo frequency and 8MB of cache all for a tiny TDP of just 25W. Below you can see some of those key specifications in more detail:
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Im Test: Intel Xeon E3-1231 v3, der den E3-1230 v3 beerbt und erneut der Geheimtipp für Kunden ist, die eine sehr schnelle CPU ohne interne Grafik und freien Multiplikator suchen.
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The Intel 'Grizzly Pass' server was just recently released by Intel. Today we are going to put it through it's paces. We are going to run several Intel 710 series SSD's in a RAID 5 array and test the system as a web server with several different operating system configurations. We will also be looking at the performance of the new Intel Xeon E5-2660 LGA2011 processors! Join us as we take a look at the latest entry into the server world by Intel!
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In many benchmarks we've seen excellent performance gains for the new 12-core flagship Xeon E5-2697 v2 compared to the previous generation 8-core flagship Xeon E5-2690. In completely multi-threaded workloads that depend solely on the CPU, that performance increase was often more than 40 percent. The 12 cores in the E5-2697 v2 use the same amount of power as the 8 cores in the E5-2690. More performance with the same level of power usage, that of course increases the performance-per-watt: by 44 percent in one benchmark. Such an increase in performance without an increase in power consumption is quite rare, from generation to generation. When you compare it to servers from two, three or four generations back, it's clear that you will quickly earn back the initial investment of upgrading to the most recent generation server processors.
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Today we look at Intel's new highest specification W5580 processors running on the new S5520SC motherboard. Just how smoking fast is this platform and are we about to break a bunch of records in our testing today?
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Our quick look at the Intel Xeon 5500 series was a very impressive one. The Intel Xeon X5570 that we looked at today operates at 2.93GHz during normal operation, but when Turbo Boost Technology is enabled the operating frequencies increased up to 3.33GHz. With this much clock frequency and all the performance features that the Intel Xeon 5500 series has to offer you end up with a server processor that blows past the competition without looking back
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The transition to the 32nm process technology let Intel painlessly increase the number of cores. The updated Xeon 5600 series is either better or at least not worse than the Xeon 5500 one. The performance of dual-socket machines has been elevated to a new level, which is great. What's even better, the transition to new dice can solve another problem, i.e. reduce power consumption.
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