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NVIDIA’s TITAN X 3DMark Performance Results Unveiled – Check Out The Performance Margin Between Its Counterparts

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Aug 2, 2016
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NVIDIA’s Pascal-based TITAN X is only a few hours away from being officially announced, and with its leaked 3DMark Performance results leaked, we will witness a glimpse of the difference in scores in contrast to the remainder of the GPUs belonging to the company’s GeForce GTX 10 series of graphic chips.

NVIDIA TITAN X 3DMark Performance Results Outshines The Competition In A Total Of Two Tests

The 3DMark Performance results of TITAN X is based on two conducted tests:

  • Fire Strike Performance
  • Fire Strike Ultra

VideoCardz has managed to compile the previous conducted scores of the GTX 10 series of GPUs, and they all have been shown in the image below. According to the test results, it should be noted that TITAN X is able to deliver around 1.3 times the performance of a GTX 1080 running at stock clock speeds, and it is able to slip past the overclocked variant of the same GPU by reporting a performance result that’s 1.13 times that of the tweaked GTX 1080.

NVIDIA-Titan-X-Graphics-Card-Official-635x357

Compared to the lesser performing GPUs, TITAN X is able to perform 1.5 times faster than a GTX 1070 (which we’re assuming that GTX 1070 is running at stock clock speeds), and around 1.87 times the speed of an overclock GTX 1060. While the price of the upcoming GPU is a steep $1,200, here is a specifications breakdown that will convince you slightly that the price is justified.

NVIDIA-TITAN-X-Pascal-3DMark-Performance

TITAN X is a Pascal GP102 GPU that features a total of 12 billion transistors, and for comparison purposes, that is a monumental difference between the 7.2 billion transistors present on GP104. Additionally, it also features the same number of CUDA Cores on the NVIDIA Tesla P100 GPU (3584 in total), and the GPU is running at a default clock speed of 1.41GHz, with a Boost clock speed of 1.53GHz.

NVIDIA-Titan-X-Graphics-Card_3-635x423

TITAN X features 12GB of GDDR5X running at a speed of 10GB/s and delivers 480GB/s of memory bandwidth. In comparison, it falls short of the memory bandwidth that HBM1 is able to deliver (512GB/s) so you can rest assure the new leap in performance that HBM2 will be able to achieve. Even though HBM2 is still not available for in consumer-based GPUs, we’d say that it is definitely worth the wait for you guys. TITAN X is going to be announced in a few hours, and we’ll have all the updates available for you guys so stay tuned.

NVIDIA GeForce 10 Pascal Family

Graphics Card Name NVIDIA GeForce GTX 1050 2 GB NVIDIA GeForce GTX 1050 3 GB NVIDIA GeForce GTX 1050 Ti NVIDIA GeForce GTX 1060 3 GB NVIDIA GeForce GTX 1060 5 GB NVIDIA GeForce GTX 1060 6 GB NVIDIA GeForce GTX 1070 NVIDIA GeForce GTX 1070 Ti NVIDIA GeForce GTX 1080 NVIDIA Titan X NVIDIA GeForce GTX 1080 Ti NVIDIA Titan Xp
Graphics Core GP107 GP107 GP107 GP106 / GP104 GP106 GP106 / GP104 GP104 GP104 GP104 GP102 GP102 GP102
Process Node 14nm FinFET 14nm FinFET 14nm FinFET 16nm FinFET 16nm FinFET 16nm FinFET 16nm FinFET 16nm FinFET 16nm FinFET 16nm FinFET 16nm FinFET 16nm FinFET
Die Size 132mm2 132mm2 132mm2 200mm2 200mm2 200mm2 314mm2 314mm2 314mm2 471mm2 471mm2 471mm2
Transistors 3.3 Billion 3.3 Billion 3.3 Billion 4.4 Billion 4.4 Billion 4.4 Billion 7.2 Billion 7.2 Billion 7.2 Billion 12 Billion 12 Billion 12 Billion
CUDA Cores 640 CUDA Cores 768 CUDA Cores 768 CUDA Cores 1152 CUDA Cores 1280 CUDA Cores 1280 CUDA Cores 1920 CUDA Cores 2432 CUDA Cores 2560 CUDA Cores 3584 CUDA Cores 3584 CUDA Cores 3840 CUDA Cores
Base Clock 1354 MHz 1392 MHz 1290 MHz 1506 MHz 1506 MHz 1506 MHz 1506 MHz 1607 MHz 1607 MHz 1417 MHz 1480 MHz 1480 MHz
Boost Clock 1455 MHz 1518 MHz 1392 MHz 1708 MHz 1708 MHz 1708 MHz 1683 MHz 1683 MHz 1733 MHz 1530 MHz 1583 MHz 1582
FP32 Compute 1.8 TFLOPs 2,3 TFLOPs 2.1 TFLOPs 4.0 TFLOPs 4.4 TFLOPs 4.4 TFLOPs 6.5 TFLOPs 8.1 TFLOPs 9.0 TFLOPs 11 TFLOPs 11.5 TFLOPs 12.5 TFLOPs
VRAM 2 GB GDDR5 3 GB GDDR5 4 GB GDDR5 3 GB GDDR5 6 GB GDDR5 6 GB GDDR5/X 8 GB GDDR5/X 8 GB GDDR5 8 GB GDDR5X 12 GB GDDR5X 11 GB GDDR5X 12 GB GDDR5X
Memory Speed 7 Gbps 7 Gbps 7 Gbps 8 Gbps 8 Gbps 9 Gbps / 10 Gbps 8 Gbps 8 Gbps 11 Gbps 10 Gbps 11 Gbps 11.4 Gbps
Memory Bandwidth 112 GB/s 84 GB/s 112 GB/s 192 GB/s 160 GB/s 224 GB/s / 240 GB/s 256 GB/s 256 GB/s 352 GB/s 480 GB/s 484 GB/s 547 GB/s
Bus Interface 128-bit bus 96-bit bus 128-bit bus 192-bit bus 160-bit bus 192-bit bus 256-bit bus 256-bit bus 256-bit bus 384-bit bus 352-bit bus 384-bit bus
Power Connector None None None Single 6-Pin Power Single 6-Pin Power Single 6-Pin Power Single 8-Pin Power Single 8-Pin Power Single 8-Pin Power 8+6 Pin Power 8+6 Pin Power 8+6 Pin Power
TDP 75W 75W 75W 120W 120W 120W 150W 180W 180W 250W 250W 250W
Display Outputs 1x Display Port 1.4
1x HDMI 2.0b
1x DVI
1x Display Port 1.4
1x HDMI 2.0b
1x DVI
1x Display Port 1.4
1x HDMI 2.0b
1x DVI
3x Display Port 1.4
1x HDMI 2.0b
1x DVI
3x Display Port 1.4
1x HDMI 2.0b
1x DVI
3x Display Port 1.4
1x HDMI 2.0b
1x DVI
3x Display Port 1.4
1x HDMI 2.0b
1x DVI
3x Display Port 1.4
1x HDMI 2.0b
1x DVI
3x Display Port 1.4
1x HDMI 2.0b
1x DVI
3x Display Port 1.4
1x HDMI 2.0b
1x DVI
3x Display Port 1.4
1x HDMI 2.0b
3x Display Port 1.4
1x HDMI 2.0b
Launch Date October 2016 May 2018 October 2016 September 2016 August 2018 July 2016 June 2016 October 2017 May 2016 August 2016 March 2017 April 2017
Launch Price $109 US $119 US-$129 US $139 US $199 US TBD $249 US $349 US $449 US $499 US $1200 US $699 US $1200 US

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