Over the years we at AnandTech have had the interesting experience of covering NVIDIA’s hard-earned but none the less not quite expected meteoric rise under the banner of GPU computing. Nearly a decade ago CEO Jen-Hsun Huang put the company on a course to invest heavily in GPUs as compute accelerators, and while it seemed likely to pay off – the computing industry has a long history of accelerators – when, where, and how ended up being a lot different than Huang was first expecting. Instead of the traditional high performance computing market, the flashpoint for NVIDIA’s rapid growth has been in neural networking, a field that wasn’t even on the radar 10 years ago.

I bring this up because in terms of NVIDIA’s product line, I don’t think there’s a card that better reflects NVIDIA’s achievements and shifts in compute strategy than the Titan family. Though originally rooted as a sort of flagship card of the GeForce family that lived a dual life between graphics and compute, the original GTX Titan and its descendants have instead transitioned over the years into an increasingly compute-centric product. Long having lost its GeForce branding but not the graphical capabilities, the Titan has instead drifted towards becoming a high performance workstation-class compute card. Each generation of the Titan has pushed farther and farther towards compute, and if we’re charting the evolution of the Titan, then NVIDIA’s latest Titan, the NVIDIA Titan V, may very well be its biggest jump yet.

Launched rather unexpectedly just two weeks ago at the 2017 Neural Information Processing Systems conference, the NVIDIA Titan V may be the most important Titan yet for the company. Not just because it’s the newest, or because it’s the fastest – and oh man, is it fast – or even because of the eye-popping $3000 price tag, but because it’s the first card in a new era for the Titan family. What sets the Titan V apart from all of its predecessors is that it marks the first time that NVIDIA has brought one of their modern, high-end compute-centric GPUs to the Titan family, and what that means for developers and users alike. NVIDIA’s massive GV100 GPU, already at the heart of the server-focused Tesla V100, introduced the company’s Volta architecture, and with it some rather significant changes and additions to NVIDIA’s compute capabilities, particularly the new tensor core. And now those features are making their way down into the workstation-class (and aptly named) Titan V.

NVIDIA GPU Specification Comparison
  Titan V Titan Xp GTX Titan X (Maxwell) GTX Titan
CUDA Cores 5120 3840 3072 2688
Tensor Cores 640 N/A N/A N/A
ROPs 96 96 96 48
Core Clock 1200MHz 1485MHz 1000MHz 837MHz
Boost Clock 1455MHz 1582MHz 1075MHz 876MHz
Memory Clock 1.7Gbps HBM2 11.4Gbps GDDR5X 7Gbps GDDR5 6Gbps GDDR5
Memory Bus Width 3072-bit 384-bit 384-bit 384-bit
Memory Bandwidth 653GB/sec 547GB/sec 336GB/sec 228GB/sec
VRAM 12GB 12GB 12GB 6GB
L2 Cache 4.5MB 3MB 3MB 1.5MB
Single Precision 13.8 TFLOPS 12.1 TFLOPS 6.6 TFLOPS 4.7 TFLOPS
Double Precision 6.9 TFLOPS
(1/2 rate)
0.38 TFLOPS
(1/32 rate)
0.2 TFLOPS
(1/32 rate)
1.5 TFLOPS
(1/3 rate)
Half Precision 27.6 TFLOPS
(2x rate)
0.19 TFLOPs
(1/64 rate)
N/A N/A
Tensor Performance
(Deep Learning)
110 TFLOPS N/A N/A N/A
GPU GV100
(815mm2)
GP102
(471mm2)
GM200
(601mm2)
GK110
(561mm2)
Transistor Count 21.1B 12B 8B 7.1B
TDP 250W 250W 250W 250W
Manufacturing Process TSMC 12nm FFN TSMC 16nm FinFET TSMC 28nm TSMC 28nm
Architecture Volta Pascal Maxwell 2 Kepler
Launch Date 12/07/2017 04/07/2017 08/02/2016 02/21/13
Price $2999 $1299 $999 $999

Our traditional specification sheet somewhat understates the differences between the Volta architecture GV100 and its predecessors. The Volta architecture itself sports a number of differences from Pascal, some of which we’re just now starting to understand. But the takeaway from all of this is that the Titan V is fast. Tap into its new tensor cores, and it gets a whole lot faster; we’ve measured the card doing nearly 100 TFLOPs. The GV100 GPU was designed to be a compute monster – and at an eye-popping 815mm2, it’s an outright monstrous slab of silicon – making it bigger and faster than any NVIDIA GPU before it.

That GV100 is appearing in a Titan card is extremely notable, and it’s critical to understanding NVIDIA’s positioning and ambitions with the Titan V. NVIDIA’s previous high-end GPU, the Pascal-based GP100, never made it to a Titan card. That role was instead filled by the much more straightforward and consumer-focused GP102 GPU, leading to the resulting Titan Xp. Titan Xp itself was no slouch in compute or graphics, however it left a sizable gap in performance and capabilities between it and the Tesla family of server cards. By putting GV100 into a Titan card, NVIDIA has eliminated this gap. However it also changes the market for the card and its expectations.

The Titan family has already been pushing towards compute for the past few years, and by putting the compute-centric GV100 into the card, NVIDIA has essentially ushered that transition to completion. The Titan V now gets all of the compute capabilities of NVIDIA’s best GPU, but in turn it’s more distant than ever from the graphics world. Which is not to say that it can’t do graphics – as we’ll see in detail in a bit – but this is first and foremost a compute card. In particular it is a means for NVIDIA to seed development for the Volta architecture and its new tensor cores, and to give its user base a cheaper workstation-class alternative for smaller-scale compute projects. The Titan family may have started as a card for prosumers, but the latest Titan V is more professional than any card before.

Putting this into context of what it means for existing Titan customers, and it means different things for compute and graphics customers. Compute customers will be delighted at the performance and the Volta architecture’s new features; though they may be less delighted at the much higher price tag.

Gamers on the other hand are in an interesting bind. Make no mistake, the Titan V is NVIDIA’s fastest gaming card to date, but as we’re going to see in our benchmarks, at least right now it’s not radically ahead of cards like the GeForce GTX 1080 and its Titan Xp equivalent. As a result, you can absolutely game on the card and boutique system builders are even selling gaming systems with the cards. But as we’re going to see in our performance results, the performance gains are erratic and there are a number of driver bugs that need squashed. The end result is that the messaging from NVIDIA and its partners is somewhat inconsistent; the $3000 price tag and GV100 GPU scream compute, but then there’s the fact that it does have video outputs, uses the GeForce driver stay, and is NVIDIA’s fastest GPU to date. I expect interesting things once we have proper consumer-focused Volta GPUs from NVIDIA, but that is a proposition or next year.

Getting down to the business end of things, let’s talk about today’s preview. In Greek mythology Titanomachy was the war of the Titans, and for our first look at the Titan V we’re staging our own version of Titanomachy. We’ve rounded up all four of the major Titans, from the OG GTX Titan to the new Titan V, and have tested them on a cross-section of compute, gaming, and professional visualization tasks in order to see what makes the Titan V tick and how the first graphics-enabled Volta card fares. Today’s preview is just that, a preview – we have even more benchmarks cooking in the background, including some cool deep learning stuff that didn’t make the cut for today’s article. But for now we have enough data pulled together to see how NVIDIA’s newest Titan compares to its siblings, and why the Volta architecture just may be every bit as big of a deal as NVIDIA has been making of it.

The Volta Architecture: In Brief
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  • mode_13h - Wednesday, December 27, 2017 - link

    How much of that could be due to the disabled HBM2 stack? Since the GPU was designed to have 4 fully-functional stacks, perhaps there are some bottlenecks when running it with only 3.
  • Golgatha777 - Sunday, December 24, 2017 - link

    It's a monster card and the best by definition. It's also a terrible value proposition.
  • FreckledTrout - Wednesday, December 20, 2017 - link

    Nice sense of humor with the "But Can It Run Crysis?" tab. First card that can pull 60fps on Crysis at 4k.
  • Pork@III - Wednesday, December 20, 2017 - link

    "First card that can pull 60fps on Crysis at 4k"

    Such a video card is not possible to exist. :)
  • tipoo - Wednesday, December 20, 2017 - link

    Does that mean we can now kill that meme in the comments?
  • Ian Cutress - Wednesday, December 20, 2017 - link

    Back when it was released, it was all about running 1080p Max.
    Today it's running 4K Max.
    Next challenge is 8K Max settings, given the Dell UP3218K exists.
  • jabbadap - Wednesday, December 20, 2017 - link

    Funny 2160p with 4x SSAA is actually rendering at 7680x4320(aka not so really "8K") and scaling it back to 2160p...
  • Ryan Smith - Wednesday, December 20, 2017 - link

    Of course we'll need to run it with 4x SSAA at 8K, to ensure there are no jaggies...
  • HollyDOL - Wednesday, December 20, 2017 - link

    I'd need a microscope to tell a difference at that resolution.
  • jbo5112 - Thursday, December 21, 2017 - link

    Yes, but what about those of us who want to run Crysis on 3 of the 8k Dell UP3218K monitors?

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