However, it’s probably most useful to focus on three of these display states: RealView disabled, The SolidWorks 2013 benchmark provides an overall score based on six different graphics states. Nvidia Quadro K2200 nestled inside our Scan 3XS GW-HT10 test machine Ports for the more modern DisplayPort standard are also included. 8GB should also be a good amount for very complex ray trace renders.Ĭonnectivity remains pretty much the same as the previous generation with Nvidia retaining DVI-I on all of its Quadro cards. This could be important for high-end design viz users who may have previously had to fork out for a significantly more expensive K6000. The other big leap in memory comes from the Quadro K5200, which boasts a substantial 8GB – double that of the K5000. The 1.3TFLOPS of single precision performance, almost double that of the K2000 it replaces, makes it a viable option for ray trace rendering with Nvidia iray. But this additional memory could also be useful for compute workflows. The Quadro K2200, Nvidia’s workhorse CAD offering, features 4GB, more than enough for almost all 3D CAD users. Discounting the Quadro K420, which probably won’t be carried by many OEMs, the new Quadro family starts off at 2GB with the K620.ĢGB of on-board GPU memory is a substantial amount for CAD and even some large models should fit quite comfortably within this envelope.
Other than performance, the headline story for this new generation of Quadros is on-board memory. While the Quadro K2200 didn’t quite hit those heights in most of our hands on tests in SolidWorks and Creo (see below), we can see how this could be possible in some applications and workflows. Based on real-world 3D applications Nvidia claims users should see, on average, a 40 percent performance gain, generation over generation. While the Maxwell Quadros are more energy efficient, performance still scales well throughout the range, says Nvidia. If the Intel Xeon refresh had happened next year we may have seen an entire family of Maxell-based Quadros. Intel is leading this waltz with its ‘Haswell-based’ Xeon E5-series CPU, which is set to officially launch next month, setting in motion brand new workstations from Dell, HP, Lenovo and others. Speaking at a pre-release press launch in New York last month Gupte called it a three-way dance involving Nvidia, Intel and the workstation manufacturers. The reason for this split family is all down to timing. The other three cards are all based on ‘Kepler’. Indeed Nvidia claims the new Quadro K2200, its mid-range CAD offering, provides users with a 90% performance improvement while only increasing max power consumption by 25%.
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The Quadro K620 and K2200 are actually based on ‘Maxwell’, Nvidia’s next generation GPU architecture, which Sandeep Gupte, senior director, professional solutions group at Nvidia, describes as being phenomenal in terms of performance per watt. The Quadro K6000, which Nvidia unveiled at SIGGRAPH in 2013, will remain the company’s flagship offering.įor two of the new cards, the ‘K’ prefix, that Nvidia introduced two years ago to mark the launch of its ‘Kepler’ family of Quadro GPUs, is a touch misleading. There are five new products in total – the Quadro K420, K620, K2200, K4200 and K5200 – all of which should be appearing in workstations in the September timeframe.
Nvidia is back with a whole new family of Quadro GPUs (Graphics Processing Units), targeting the whole gamut of professional 3D users, from entry-level CAD all the way up to high-end design viz. This article was updated on Sto add performance figures from the Quadro K4200 and K5200
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