Nvidia Titan

Nvidia Titan is a series of desktop - graphics processors of the company Nvidia . The Titan graphics cards were initially assigned to the GeForce series and generally represented the most powerful model in the current series. As a special feature, some of the models had properties that are normally only found in the professional series, Quadro and Tesla (such as increased performance when calculating with double precision ). When the Titan X came onto the market in August 2016, Nvidia for the first time renounced the name GeForce and the classification in the GeForce 10 series at the time . With the Titan V at the end of 2017, an architecture was used for the first time (Volta architecture on the GV100) that is not used in the normal GeForce series. The Titan series now functions as a hybrid series between the GeForce and professional series, Quadro and Tesla.

Data overview

Graphics processors

Model data

Remarks

1. ↑ The date indicated is the date of the public presentation, not the date of availability of the models.
2. ↑ The specified performance values ​​for the computing power via the stream processors, the pixel and texel fill rate, as well as the memory bandwidth are theoretical maximum values ​​(with boost clock) that are not directly comparable with the performance values ​​of other architectures. The overall performance of a graphics card depends, among other things, on how well the available resources can be used or fully utilized. There are also other factors that are not listed here that affect performance.
3. ↑ ^{a b} The specified clock rates are the reference data recommended or specified by Nvidia; the I / O clock is specified for the memory clock (the effective clock in brackets). However, the exact clock rate can deviate by a few megahertz due to different clock generators, and the final definition of the clock rates is in the hands of the respective graphics card manufacturer. It is therefore entirely possible that there are or will be graphics card models that have different clock rates.
4. ↑ The MGCP value specified by Nvidia does not necessarily correspond to the maximum power consumption. This value is also not necessarily comparable with the TDP value of the competitor AMD.
5. ↑ The measured values ​​listed in the table relate to the pure power consumption of graphics cards that correspond to the Nvidia reference design. A special measuring device is required to measure these values; Depending on the measurement technology used and the given measurement conditions, including the program used to generate the 3D load, the values ​​can fluctuate between different devices. Therefore, measured value ranges are given here, each representing the lowest, typical and highest measured values ​​from different sources.

Individual evidence

1. ↑ NVIDIA GeForce GTX TITAN. Nvidia Corporation, accessed June 4, 2013 . 
2. ↑ ^{a b} Power consumption of current and past graphics cards. 3DCenter.org, accessed September 13, 2018 . 
3. ↑ NVIDIA GeForce GTX TITAN Black. Nvidia Corporation, accessed February 18, 2014 . 
4. ↑ ^{a b c d} Power consumption of current and past graphics cards. 3DCenter.org, accessed September 13, 2018 . 
5. ↑ NVIDIA GeForce GTX TITAN Z. Nvidia Corporation, accessed May 28, 2014 . 
6. ↑ NVIDIA GeForce GTX Titan X. Nvidia Corporation, accessed March 17, 2015 . 
7. ↑ ^{a b} Power consumption of current and past graphics cards. 3DCenter.org, accessed September 13, 2018 . 
8. ↑ NVIDIA TITAN X. Nvidia Corporation, July 21, 2016, accessed July 22, 2016 . 
9. ↑ ^{a b c d} Power consumption of current and past graphics cards. 3DCenter.org, accessed September 13, 2018 . 
10. ↑ NVIDIA TITAN Xp. Nvidia Corporation, April 6, 2017, accessed April 6, 2017 . 
11. ↑ ^{a b} NVIDIA TITAN V. Nvidia Corporation, accessed September 13, 2018 . 
12. ↑ NVIDIA TITAN RTX. Nvidia Corporation, December 18, 2018, accessed January 3, 2019 .