TITAN V vs Geforce GTX TITAN Xp

TITAN V
Memory: 12288Mb HBM2DESKTOP
Release date: 7 Dec 2017
TITAN V
Geforce GTX TITAN Xp
Memory: 12288Mb GDDR5XDESKTOP
Release date: 6 Apr 2017
Geforce GTX TITAN Xp

Summary

Reasons to consider TITAN V

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 Xp

Supports PhysX.
Supports G-Sync.
Supports ShadowPlay (allows game streaming/recording with minimum performance penalty).
Supports Direct3D 12 Async Compute.

TITAN V

HWBench recommends TITAN V

Based on theoretical specifications.



Specifications

Core Configuration

TITAN VGeforce GTX TITAN Xp
GPU NameGV100 (GV100)vsGP102 (GP102)
Fab Process12 nmvs16 nm
Die Size815 mm²vs471 mm²
Transistors21,100 millionvs12,000 million
Shaders5120vs3840
Compute Units80vs30
Core clock1455 MHzvs1480 MHz
ROPs128vs96
TMUs320vs240

Memory Configuration

TITAN VGeforce GTX TITAN Xp
Memory TypeHBM2vsGDDR5X
Bus Width4096 bitvs384 bit
Memory Speed850 MHz
1700 MHz effective
vs1426 MHz
11408 MHz effective
Memory Size12288 Mbvs12288 Mb

Additional details

TITAN VGeforce GTX TITAN Xp
TDP250 wattsvs250 watts
Release Date7 Dec 2017vs6 Apr 2017

Raw Performance comparison

Pixel Rate

  • TITAN V
    187.60 GP/s
  • Geforce GTX TITAN Xp
    142.10 GP/s

GigaPixels - higher is better

Texel Rate

  • TITAN V
    384.00 GT/s
  • Geforce GTX TITAN Xp
    355.00 GT/s

GigaTexels - higher is better

Memory bandwidth

  • TITAN V
    652.80 GB/s
  • Geforce GTX TITAN Xp
    548.00 GB/s

GB/s - higher is better

Single precision performance

  • TITAN V
    15012.00 GFLOPs
  • Geforce GTX TITAN Xp
    11366.00 GFLOPs

GFLOPs - higher is better