RTX 3500 offers 2 NVENC blocks, but only a single NVDEC block. Optional soft ECC is also available on this part.īesides compute performance, this is also the tier where NVIDIA starts trimming video performance. However memory capacity and memory bandwidth is unchanged, at 12GB of GDDR6. Dropping down another tier further brings down the compute/render performance by around 31% from the RTX 4000. With 5120 CUDA cores, this seems to be another AD104-based part. The max TGP for this part is unchanged, however, at 175 Watts, so it’s similarly aimed at larger DTR-style laptops.Ī step below that, in turn, is the RTX 3500 Ada Generation Laptop GPU. Notably, this part offers the same 2 & 2 NVENC/NVDEC configuration as the RTX 5000, as well as the optional soft ECC support. In terms of performance, it gives up about 21% of RTX 5000’s compute throughput and 25% of its memory, leaving us with a 7424 CUDA core part with 12GB of GDDR6. The specifications indicate that this is almost certainly based on NVIDIA’s AD104 GPU, making it analogous to the consumer RTX 4080 for Laptops. Taking a step down is the RTX 4000 Ada Generation Laptop GPU. The max power consumption (TGP) is rated at 175 Watts, and while OEMs can configure the precise value to their liking for their specific laptop models, it goes without saying that this is a part for true desktop/workstation replacement laptops. Meanwhile the RTX 5000 also stands apart with its soft ECC support, which reserves some GPU memory to store additional ECC data to catch and repair any memory errors in the DRAM.Īltogether, this part is paired with 16GB of GDDR6 memory, clocked at 18Gbps. While a consumer RTX 4090 offers the same two NVENC engines as the RTX 5000, the proviz part gets access to a second NVDEC engine that the consumer parts do not. On the proviz side of matters, along with coming with access to NVIDIA’s proviz software stack and all of the official support that a proviz part entails, the RTX 5000 also offers better video decoding support than its retail counterpart. As well, all of these parts promise significant energy efficiency gains over prior generation parts, thanks in big part to the use of TSMC’s “4N” 4nm-class fab process that all of NVIDIA’s Ada Lovelace GPUs use. This means a nearly fully enabled part based on the AD103 GPU, employing all of the new features and tricks that come with the Ada Lovelace architecture, such as DLSS 3 support and NVIDIA’s latest ray tracing and video encoding hardware. In any case, at 9728 CUDA cores, the RTX 5000 Ada Generation Laptop GPU is analogous to the consumer RTX 4090 for Laptops. The longwinded name comes as NVIDIA is retaining the same naming scheme that they introduced for desktop proviz parts recently with the RTX 6000 Ada Generation part, so all of these new laptop parts are RTX parts with their generation and laptop designation tacked on to the final name. NVIDIA Laptop Professional VisualizationĪt the top of the new stack and replacing the RTX A5500 for Laptops and RTX A5000 for Laptops is the very specifically named RTX 5000 Ada Generation Laptop GPU. But with NVIDIA now shipping a slew of Ada Lovelace silicon from the high end to the low end, they are rolling out those professional laptop parts. While NVIDIA announced a top-to-bottom lineup of laptop parts for consumer GPUs back at CES 2023 at the start of the year, up until now they haven’t had anything ready for the professional laptop market – parts under what used to be the Quadro brand. Meanwhile, desktop users aren’t being left out in the cold either, as NVIDIA is preparing to launch a low-profile, small form factor optimized desktop RTX 4000 Ada Generation card.įirst and foremost, let’s start with the laptops. Altogether NVIDIA is introducing 5 new SKUs for professional laptops, from the RTX 5000 down to the RTX 2000. NVIDIA’s laptop lineup, which to date has not received any parts based on NVIDIA’s new Ada Lovelace architecture is finally getting its due, with a nearly top-to-bottom update of their whole product lineup. SUPPORTED TECHNOLOGIES AND FEATURES: SHADER MODEL 5.0, OPENGL 4.Along with their server part announcements today, NVIDIA is also using the backdrop of GTC to do a wholesale update of their professional visualization product stack. NVIDIA QUADRO 4000 GRAPHICS CARD 2GB 256 CUDA CORES MEMORY INTERFACE 256 BIT GDDR5 MEMORY BANDWIDTH 89.6GB/S PCI-E 2.0 X16 COOLING SYSTEM ( 1 ) ONE HEATSINK ( 1 ) ONE FAN ( 1 ) DUAL LINK DVI-I ( 2 ) TWO DISPLAYPORTS DP VIDEO CARD
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