TITAN V vs GeForce GTX TITAN Z
Summary
Reasons to consider TITAN V |
| 125 watts lower power draw. This might be a strong point if your current power supply is not enough to handle the GeForce GTX TITAN Z . |
| This is a much newer product, it might have better long term support. |
| Higher theoretical gaming performance, based on specifications. |
| Supports PhysX |
| Supports G-Sync |
| Supports ShadowPlay (allows game streaming/recording with minimum performance penalty) |
| Supports Direct3D 12 Async Compute. |
Reasons to consider GeForce GTX TITAN Z |
| Supports PhysX |
| Supports G-Sync |
| Supports ShadowPlay (allows game streaming/recording with minimum performance penalty) |
| Based on an outdated architecture (Nvidia Kepler), there are less performance optimizations for current games and applications |
HWBench recommends TITAN V
Based on theoretical specifications.
Core Configuration
| TITAN V | | GeForce GTX TITAN Z | |
|---|
| GPU Name | GV100 (GV100-400-A1) | vs | GK110B (GK110-430-B1) |
| Fab Process | 12 nm | vs | 28 nm |
| Die Size | 815 mm² | vs | 561 mm² |
| Transistors | 21,100 million | vs | 7,080 million |
| Shaders | 5120 | vs | 2880 |
| Compute Units | 80 | vs | 15 |
| Core clock | 1200 MHz | vs | 705 MHz |
| ROPs | 96 | vs | 48 |
| TMUs | 320 | vs | 240 |
Memory Configuration
| TITAN V | | GeForce GTX TITAN Z | |
|---|
| Memory Type | HBM2 | vs | GDDR5 |
| Bus Width | 3072 bit | vs | 384 bit x2 |
| Memory Speed | 850 MHz
1700 MHz effective | vs | 1750 MHz
7000 MHz effective |
| Memory Size | 12288 Mb | vs | 6144 Mb |
Additional details
| TITAN V | | GeForce GTX TITAN Z | |
|---|
| TDP | 250 watts | vs | 375 watts |
| Release Date | 7 Dec 2017 | vs | 28 May 2014 |
TITAN V
139.70 GP/s
GeForce GTX TITAN Z
84.60 GP/s
GigaPixels - higher is better
TITAN V
465.60 GT/s
GeForce GTX TITAN Z
338.40 GT/s
GigaTexels - higher is better
TITAN V
652.80 GB/s
GeForce GTX TITAN Z
672.00 GB/s
GB/s - higher is better
TITAN V
14899.00 GFLOPs
GeForce GTX TITAN Z
8122.00 GFLOPs
GFLOPs - higher is better