NVIDIA Quadro T2000 Max-Q vs NVIDIA Quadro RTX 6000 (Laptop) vs NVIDIA Quadro T1000 Max-Q

The Nvidia Quadro T2000 with Max-Q Design is a professional mobile graphics card that is based on the Turing architecture (TU117 chip). It is based on the consumer desktop GTX 1650 Ti therefore currently between a mobile GTX 1650 and GTX 1660 Ti. The chip is manufactured in 12nm FinFET at TSMC. Compared to the normal Quadro T2000, the Max-Q variants are clocked lower and work in a more efficient state. Currently, we know of two variants with different clock speeds and power consumptions (35 and 40 W).

The Turing generation did not only introduce raytracing for the RTX cards, but also optimized the architecture of the cores and caches. According to Nvidia the CUDA cores offer now a concurrent execution of floating point and integer operations for increased performance in compute-heavy workloads of modern games. Furthermore, the caches were reworked (new unified memory architecture with twice the cache compared to Pascal). This leads to up to 50% more instructions per clock and a 40% more power efficient usage compared to Pascal.

The performance in professional apps should be clearly lower than a normal (Max-P) Quadro T2000 due to the lower clock speeds, but still ahead the slower Quadro T1000 due to the higher shader count. Compared to consumer cards, the mobile GTX 1650 should be still slower.

Thanks to the relative low power consumption of the Quadro T2000 Max-Q, the GPU is suited for thin and light laptops. The used TU116 chip is manufactured in 12nm FFN at TSMC.

The Nvidia Quadro RTX 6000 for laptops is a professional high-end graphics card for big and powerful laptops and mobile workstations. It is based on the same TU102 chip as the consumer GeForce RTX 2080 Ti. Compared to the desktop RTX 6000, the mobile variant offers lower clock speeds.

The Quadro GPUs offer certified drivers, which are optimized for stability and performance in professional applications (CAD, DCC, medical, prospection, and visualizing applications). The performance in these areas is therefore much better compared to corresponding consumer GPUs.

Features

NVIDIA manufacturers the TU102 chip on a 12 nm FinFET process and includes features like Deep Learning Super Sampling (DLSS) and Real-Time Ray Tracing (RTRT), which should combine to create more realistic lighting effects than older GPUs based on the company's Pascal architecture (if the games support it). The Quadro RTX 6000 is also DisplayPort 1.4 ready, while there is also support for HDMI 2.0b, HDR, Simultaneous Multi-Projection (SMP) and H.265 video en/decoding (PlayReady 3.0).

Performance

Due to the lower clock speeds, the mobile RTX 6000 lags slightly behind the desktop version with the same name. Nvidia states for example that a desktop system using the RTX 6000 is on average 13% faster in the SPECviewperf13 4k benchmark.

Due to the extremely high power consumption of 200 Watt (TDP), the mobile Quadro RTX 6000 needs an excellent cooling solution and will be used only in big laptops.

The Nvidia Quadro T1000 with Max-Q Design is a professional mobile graphics card that is based on the Turing architecture (TU117 chip). Compared to the consumer GTX 1650, the Quadro T1000 features less CUDA cores / shaders (768 versus 896). The chip is manufactured in 12nm FinFET at TSMC. Compared to the normal Quadro T1000, the Max-Q variants are clocked lower and work in a more efficient state. Currently, we know of two variants with different clock speeds and power consumptions (35 and 40 W).

The Quadro T1000 is a mobile graphics card that is based on the Turing architecture (TU116 chip). Compared to the faster RTX 2000 GPUs (e.g. RTX 2060), the T1000 integrates no Raytracing or Tensor cores. Due to the same boost clock as the mobile T1000, the Max-Q variants can perform similar with sufficient cooling.

The Turing generation did not only introduce raytracing for the RTX cards, but also optimized the architecture of the cores and caches. According to Nvidia the CUDA cores offer now a concurrent execution of floating point and integer operations for increased performance in compute-heavy workloads of modern games. Furthermore, the caches were reworked (new unified memory architecture with twice the cache compared to Pascal). This leads to up to 50% more instructions per clock and a 40% more power efficient usage compared to Pascal.

Thanks to the low power consumption, the Max-Q T2000 GPU can be used in thin and light laptops. The used TU116 chip is manufactured in 12nm FFN at TSMC.