Looking Towards the Professionals

We now dive into the compute performance side of the TITAN V, where it real shines.

This is a multi-part story for the NVIDIA Titan V:

Earlier this week we dove into the new NVIDIA Titan V graphics card and looked at its performacne from a gaming perspective. Our conclusions were more or less what we expected – the card was on average ~20% faster than the Titan Xp and about ~80% faster than the GeForce GTX 1080. But with that $3000 price tag, the Titan V isn't going to win any enthusiasts over.

What the Titan V is meant for in reality is the compute space. Developers, coders, engineers, and professionals that use GPU hardware for research, for profit, or for both. In that case, $2999 for the Titan V is simply an investment that needs to show value in select workloads. And though $3000 is still a lot of money, keep in mind that the NVIDIA Quadro GP100, the most recent part with full-performance double precision compute from the Pascal chip, is still selling for well over $6000 today. 

The Volta GV100 GPU offers 1:2 double precision performance, equating to 2560 FP64 cores. That is a HUGE leap over the GP102 GPU used on the Titan Xp that uses a 1:32 ratio, giving us just 120 FP64 cores equivalent.

  Titan V Titan Xp GTX 1080 Ti GTX 1080 GTX 1070 Ti GTX 1070 RX Vega 64 Liquid Vega Frontier Edition
GPU Cores 5120 3840 3584 2560 2432 1920 4096 4096
FP64 Cores 2560 120 112 80 76 60 256 256
Base Clock 1200 MHz 1480 MHz 1480 MHz 1607 MHz 1607 MHz 1506 MHz 1406 MHz 1382 MHz
Boost Clock 1455 MHz 1582 MHz 1582 MHz 1733 MHz 1683 MHz 1683 MHz 1677 MHz 1600 MHz
Texture Units 320 240 224 160 152 120 256 256
ROP Units 96 96 88 64 64 64 64 64
Memory 12GB 12GB 11GB 8GB 8GB 8GB 8GB 16GB
Memory Clock 1700 MHz MHz 11400 MHz 11000 MHz 10000 MHz 8000 MHz 8000 MHz 1890 MHz 1890 MHz
Memory Interface 3072-bit
HBM2
384-bit G5X 352-bit G5X 256-bit G5X 256-bit 256-bit 2048-bit HBM2 2048-bit HBM2
Memory Bandwidth 653 GB/s 547 GB/s 484 GB/s 320 GB/s 256 GB/s 256 GB/s 484 GB/s 484 GB/s
TDP 250 watts 250 watts 250 watts 180 watts 180 watts 150 watts 345 watts 300 watts
Peak Compute 12.2 (base) TFLOPS
14.9 (boost) TFLOPS
12.1 TFLOPS 11.3 TFLOPS 8.2 TFLOPS 7.8 TFLOPS 5.7 TFLOPS 13.7 TFLOPS 13.1 TFLOPS
Peak DP Compute 6.1 (base) TFLOPS
7.45 (boost) TFLOPS
0.37 TFLOPS 0.35 TFLOPS 0.25 TFLOPS 0.24 TFLOPS 0.17 TFLOPS 0.85 TFLOPS 0.81 TFLOPS
MSRP (current) $2999 $1299 $699 $499 $449 $399 $699 $999

The current AMD Radeon RX Vega 64, and the Vega Frontier Edition, all ship with a 1:16 FP64 ratio, giving us the equivalent of 256 DP cores per card.

Test Setup and Benchmarks

Our testing setup remains the same from our gaming tests, but obviously the software stack is quite different. 

  PC Perspective GPU Testbed
Processor Intel Core i7-5960X Haswell-E
Motherboard ASUS Rampage V Extreme X99
Memory G.Skill Ripjaws 16GB DDR4-3200
Storage OCZ Agility 4 256GB (OS)
Adata SP610 500GB (games)
Power Supply Corsair AX1500i 1500 watt
OS Windows 10 x64
Drivers AMD: 17.10.2
NVIDIA: 388.59

Applications in use include:

  • Luxmark 
  • Cinebench R15
  • VRay
  • Sisoft Sandra GPU Compute
  • SPECviewperf 12.1
  • FAHBench

Let's not drag this along – I know you are hungry for results! (Thanks to Ken for running most of these tests for us!!)

« PreviousNext »