GPUs Graphics Reviews

MSI Geforce RTX 2080 Super Gaming X Trio review – Heavy chunk on soft soles

MSI didn't crack at the self-interpretation of the GeForce RTX 2080 Super Gaming X Trio, but probably used the unsuperrated model and took over almost everything 1:1, which was by no means a bad idea. An extremely potent cooler, which also works on the in-house RTX 2080 Ti, meets an above-average board, so this remains the case with the smashed-up Over-2080. The rest will be shown by the test, because the leeway that Nvidia leaves to all board partners at the end is unfortunately extremely overlooked. But more on that later.

 

The TU104-450 of the GeForce RTX 2080 Super

Similar to the larger TU102, TSMC manufactures the TU104 on its 12 nm FinFET node. But a transistor number of 13.6 billion leads to a smaller, "only" 545 mm2 die-area. Of course, this also saves costs in the end. However, Turing Junior still surpasses the 471 mm2 of the GP102 as the flagship of the last generation and comes quite close to the size of the GK110 in the original GeForce GTX Titan.

The TU104 is made up of the same building blocks as the TU102; but there is only a little less of everything. The streaming multiprocessors still have 64 CUDA cores, eight tensor cores, an RT core, four texture units, 16 load/storage units, 256 KB of register memory, and 96 KB of L1 cache/shared memory. The TPCs also still consist of two SMs and a PolyMorph geometry engine. But there are now only four TPCs per GPC and the six GPCs are distributed across the processor. Therefore, a fully functional TU104 has a total of 48 SMs, 3072 CUDA cores, 384 tensor cores, 48 RT cores, 192 texture units and 24 PolyMorph engines.

A correspondingly narrower back-end implements the connection via eight 32-bit GDDR6 memory controllers (256-bit aggregate) connected to 64 ROPs and 4 MB L2 cache. However, Nvidia gives the GeForce RTX 2080 Super the slightly faster memory at 16 Gbps, instead of the 14 Gb/s of the smaller models. Unfortunately, the TU104 also loses one of the two x8 NVLink connections of the TU102, which then limits the whole to an x8 connection and 50 GB/s bidirectional throughput.

 

 

Unboxing and technical data

The design is also very MSI-typical in purely visual terms. With a total length of 32.8 cm from the outer edge of the slot panel to the end of the radiator cover and 13.5 cm height from the top edge of the PCIe slot to the top edge of the radiator cover (and board), this card is a real balancing hum. With a built-in depth of a whopping 5 cm, this is almost a 3-slot design, especially since 0.5 cm for the backplate on the back of the card is added.

The fighting weight of 1517 grams is almost no longer noticeable, even if it gets a bit quite a lot for the motherboard. At least without a graphics card holder. Unfortunately, there is no such place in the house, a pity. Used, translucent RGB applications loosen the edge body of the anthracite-colored ABS cover at least slightly, if you don't switch it off. Two 9.5 cm fans and an 8.5 cm fan provide the necessary throughput above the heat sink with the vertically arranged slats.

A first overview gives us here GPU-Z:

The table gives a nice overview of the technical data of the current GeForce RTX Super and the older comparison models:

  Nvidia GeForce
RTX 2070 FE
Nvidia GeForce
RTX 2070 Super
Nvidia GeForce
RTX 2080 FE
Nvidia GeForce
RTX 2080 Super
MSI GeForce
RTX 2080 Super
Gaming X Trio
Architecture (GPU)
TU106-400 TU104-410 TU104-400 TU104-450 TU104-450
CUDA Cores
2304 2560 2944 3072 3072
Tensor Cores
288 320 368 384 384
RT Cores
36 40th 46 48 48
Texture Units
144 160 184 192 192
Base Clock Rate
1410 MHz 1605 MHz 1515 MHz 1650 MHz 1650 MHz
GPU Boost Rate
1710 MHz 1770 MHz 1800 MHz 1815 MHz 1845 MHz
Storage expansion
8GB GDDR6 8GB GDDR6 8GB GDDR6 8GB GDDR6 8GB GDDR6
Storage bus
256-bit 256-bit 256-bit 256-bit 256-bit
Bandwidth
448 GB/s 448 GB/s 448 GB/s 496 GB/s 496 GB/s
Rops
64 64 64 64 64
L2 Cache
4 MB 4 MB 4 MB 4 MB 4 MB
Tdp
185 W 215 W 225 W 250 W 250 W
Transistors
10.8 billion 13.6 billion 13.6 billion 13.6 billion 13.6 billion
The size
445 mm2 545 mm2 545 mm2 545 mm2 545 mm2
Sli
No NVLink x8 NVLink x8 NVLink x8 NVLink x8

 

Test system and measurement methods

The test system and the methodology are well known, but since I am now independently testing here in Germany, the test system has also been upgraded again without having to take into account colleagues.

If you are interested, the summary in table form quickly provides a brief overview:

Test systems and measuring rooms
Hardware:
Intel Core i9-9900 KF
MSI MEG Z390 ACE
2x 8GB KFA2 HoF DDR4 4000
1x 1 TByte Patriot Viper (NVMe System SSD)
1x Seagate FastSSD Portable USB-C
Be Quiet Dark Power Pro 11, 850-watt power supply
Cooling:
Alphacool Ice Block XPX
5x Be Quiet! Silent Wings 3 PWM (Closed Case Simulation)
Thermal Grizzly Kryonaut (for cooler change)
Housing:
Lian Li PC-T70 with expansion kit and modifications
Modes: Open Benchtable, Closed Case
Monitor: Eizo EV3237-BK
Power consumption:
non-contact DC measurement on the PCIe slot (Riser-Card)
non-contact DC measurement on the external PCIe power supply
Direct voltage measurement on the respective feeders and on the power supply
2x Rohde & Schwarz HMO 3054, 500 MHz multi-channel oscillograph with memory function
4x Rohde & Schwarz HZO50, current togor adapter (1 mA to 30 A, 100 KHz, DC)
4x Rohde & Schwarz HZ355, touch divider (10:1, 500 MHz)
1x Rohde & Schwarz HMC 8012, digital multimeter with storage function
Thermography:
1x Optris PI640, 2x Xi400 Infrared Cameras
Pix Connect evaluation software with profiles
Acoustics:
NTI Audio M2211 (with calibration file)
Steinberg UR12 (with phantom power for the microphones)
Creative X7, Smaart v.7
own low-reflection measuring room, 3.5 x 1.8 x 2.2 m (LxTxH)
Axial measurements, perpendicular to the center of the sound source(s), measuring distance 50 cm
Noise in dBA (Slow) as RTA measurement
Frequency spectrum as a graph
Operating system Windows 10 Pro (1903, all updates), driver current

MSI GeForce RTX 2080 SUPER Gaming X Trio, 8GB GDDR6, HDMI, 3x DP, USB-C (V372-248R)

 

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About the author

Igor Wallossek

Editor-in-chief and name-giver of igor'sLAB as the content successor of Tom's Hardware Germany, whose license was returned in June 2019 in order to better meet the qualitative demands of web content and challenges of new media such as YouTube with its own channel.

Computer nerd since 1983, audio freak since 1979 and pretty much open to anything with a plug or battery for over 50 years.

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