To that end, today NVIDIA is launching a new entry into their venerable NVS multi-display lineup, the NVS 810. Seeing as this market segment doesn’t see updates very often this is the first and possibly only Maxwell based card to be released in this sector. This card is based around a pair of GM107 GPUs on a single board, allowing NVIDIA to outfit the NVS 810 with 8 mini-DP 1.2 ports on a single-wide PCIe card.
For the NVS 810’s hardware, under the hood we are looking at a pair of partially enabled GM107 GPUs with 512 of 640 CUDA cores enabled, for a total of 1024 CUDA cores. This is paired up with 2GB of VRAM per GPU for a total of 4GB, and though NVIDIA doesn’t specify the memory type it’s safe to assume it’s DDR3. Otherwise NVIDIA is targeting a relatively low power profile here – just 68W total board power – with the lower board power helping with GPU density and makes stuffing the maximum of four of these cards into a single machine at once a much more civil affair.
Speaking of stuffing cards in a machine, while I imagine that real world implementations of this may be rare, where I notice that this solution gets immensely crazy is the sheer number of mDP ports on hand coupled with the ability to fit four in one machine. Coupled with NVIDIA’s Mosaic display stitching and synchronization software, it’s possible to use a pair of NVS 810s together to drive up to 16 4K displays as if they are one massive display. Regardless of the rarity of such an implementation the idea that one could build a micro-ATX computer that could drive what’s functionally a 137MP display is a very impressive thought indeed.
Wrapping things up, NVIDIA tells us that the NVS 810 is expected to have a street price in the $650-$750 range. Overall the company is pitching the NVS 810 as a high density, low total cost solution to situations requiring a large number of high pixel count displays. As a result NVIDIA is chasing a very specific market with the board, but for those with such needs the NVS 810 brings quite a bit to the table.