This puts the total FP32 throughput at 11 TFLOPs (well, 10.97…), 24% higher than GTX 1080. On the clockspeed front, Titan X will be clocked at 1417MHz base and 1531MHz boost. NVIDIA is not confirming the total number of CUDA cores in GP102 at this time, but if it’s meant to be a lightweight version of GP100, then this may not be a fully enabled card. These products are based on very different GPUs, but I bring this up because Tesla P100 did not use a fully enabled GP100 GPU its GPU features 3840 CUDA cores in total. It’s interesting to note here that 3584 CUDA cores happens to be the exact same number of CUDA cores also found in the Tesla P100 accelerator. Assuming that NVIDIA retains their GP104-style consumer architecture here – and there’s every reason to expect they will – then we’re looking at 28 SMs, or 40% more than GP104 and the GTX 1080. Let’s dive right into the numbers, shall we? The NVIDIA Titan X will be shipping with 3584 CUDA cores. Based on the company’s new GP102 GPU, it’s launching in less than two weeks, on August 2 nd. However now that we’re the Pascal generation, it turns out NVIDIA is in the mood to set a speed record, and in more ways than one.Īnnounced this evening by Jen-Hsun Huang at an engagement at Stanford University is the NVIDIA Titan X, NVIDIA’s new flagship video card. All things considered, that was a fast turnaround for a new architecture. In 2014/2015, it took NVIDIA 6 months from the launch of the Maxwell 2 architecture to get GTX Titan X out the door.
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