![]() #49 linkCache_getLink using $NBC_LINKCACHE +0s. #48 linkCache_getLink using $NBC_LINKCACHE +0s. #47 linkCache_getLink using $NBC_LINKCACHE +0s. ![]() #46 linkCache_getLink using $NBC_LINKCACHE +0.004s. #45 linkCache_getLink using $NBC_LINKCACHE +0.006s. #44 linkCache_getLink using $NBC_LINKCACHE +0s. #43 linkCache_getLink using $NBC_LINKCACHE +0s. #42 linkCache_getLink using $NBC_LINKCACHE +0s. #41 linkCache_getLink using $NBC_LINKCACHE +0s. #40 linkCache_getLink using $NBC_LINKCACHE +0s. #39 linkCache_getLink using $NBC_LINKCACHE +0.007s. #38 linkCache_getLink using $NBC_LINKCACHE +0.001s. #37 linkCache_getLink using $NBC_LINKCACHE +0s. #36 linkCache_getLink using $NBC_LINKCACHE +0s. #35 linkCache_getLink using $NBC_LINKCACHE +0s. #34 linkCache_getLink using $NBC_LINKCACHE +0s. #33 linkCache_getLink using $NBC_LINKCACHE +0.006s. #32 linkCache_getLink using $NBC_LINKCACHE +0.002s. #31 linkCache_getLink using $NBC_LINKCACHE +0s. #30 linkCache_getLink using $NBC_LINKCACHE +0s. #29 linkCache_getLink using $NBC_LINKCACHE +0s. #28 linkCache_getLink using $NBC_LINKCACHE +0s. #27 linkCache_getLink using $NBC_LINKCACHE +0s. #26 linkCache_getLink using $NBC_LINKCACHE +0s. #25 linkCache_getLink using $NBC_LINKCACHE +0s. #24 linkCache_getLink using $NBC_LINKCACHE +0s. #23 linkCache_getLink using $NBC_LINKCACHE +0.003s. #22 linkCache_getLink using $NBC_LINKCACHE +0.002s. #21 linkCache_getLink using $NBC_LINKCACHE +0s. #20 linkCache_getLink using $NBC_LINKCACHE +0s. #19 linkCache_getLink using $NBC_LINKCACHE +0s. #18 linkCache_getLink using $NBC_LINKCACHE +0.004s. #16 linkCache_getLink using $NBC_LINKCACHE +0.005s. #15 linkCache_getLink using $NBC_LINKCACHE +0.001s. #14 linkCache_getLink using $NBC_LINKCACHE +0.005s. #13 linkCache_getLink using $NBC_LINKCACHE +0s. #12 linkCache_getLink using $NBC_LINKCACHE +0.001s. #11 linkCache_getLink using $NBC_LINKCACHE +0s. #10 linkCache_getLink using $NBC_LINKCACHE +0.003s. #9 linkCache_getLink no uid found +0.003s. #6 getting avg benchmarks for device 7664 +0.019s. ![]() #2 did not recreate cache, as it is less than 5 days old! Created at Tue, 17:06:50 +0200 +0.001s. #0 no ids found in url (should be separated by "_") +0s. Optimus, PhysX, 3D Vision Pro, nView, Optimus The card is therefore suited for large 17-inch notebooks. The power consumption of the Quadro P5000 is similar to the old Quadro M5000M at 100 Watts TGP (max power consumption incl. The theoretical performance should be on par with the GTX 1070 (if the clocks did not take a massive hit), so the GPU should be significantly faster than the previous M5000M. The performance in these areas is therefore much better compared to corresponding consumer GPUs. The Quadro GPUs offer certified drivers, which are optimized for stability and performance in professional applications (CAD, DCC, medical, prospection, and visualizing applications). The clock rates range between 1164 MHz (base) to 1506 MHz (typical Boost) and up to 1657 MHz (max.). However, the P5000 is equipped with 16 GB GDDR5 video memory (at a lower bandwidth), while GTX 1070 is limited to 8 GB. The graphics card is designed for the Kaby Lake generation and is the successor to the Quadro M5000M (Maxwell). Similar to the consumer GeForce GTX 1070 (Laptop), it is based on a slimmed-down GP104 chip with 2048 shaders. AMD appear to have very short term marketing strategists at the helm, they seem more concerned with this years bonuses than the longevity of the brand.The Nvidia Quadro P5000 is a mobile high-end workstation graphics card for notebooks. It appears that the same marketing tactics were employed for the reference Vega 56 and 64 series of graphics cards which we will purchase for our gaming lab and generate effective Fps gaming metrics as soon as possible ( results here). Thousands of people, duped by sponsored marketing material, purchased the reference card expecting flagship performance, instead they got a shopping trolley with a V6 engine. The reference 5700 XT is great for beating cherry picked benchmarks, but it is not so great for playing games. ![]() There were also incompatibilities with GTAV: enabling reflection MSAA resulted in very poor, almost matt, reflection fidelity (the same bug appeared on several Navi and Vega cards). After making these changes the card delivered far more consistent performance albeit with a reduced top speed and unacceptable (hair dryer) levels of noise. The fan curve also had to be turned up to around 50% power at 75 degrees (which is a lot noisier than stock). In order to settle the card it was under volted by 120 mV and the maximum clock was lowered to 1,980 MHz (the stock BIOS and 19.9.1 driver defaulted the card to 2,030 MHz). Out of the box the reference 5700 XT has high burst speeds but under load it overheats and therefore drops frames to the extent that it is more or less unusable for demanding games like PUBG.
0 Comments
Leave a Reply. |
Details
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |