AMD Radeon RX 5600 XT review - with the last-minute BIOS boost to an efficient RTX-2060 killer?

AMD made an interesting move at the last moment and shifted the Radeon RX 5600 XT into a new performance class virtually overnight via BIOS upgrade. This review will answer whether this goes well and whether one can beat the now targeted opponent in the form of the GeForce RTX 2060 6GB. Spoilers I can at this point however already once that the power consumption will offer a surprise. At least in direct comparison to the GeForce RTX 2060. Crowbar or moneybox? We'll settle that today, I promise.

Important preliminary remark

However, due to the amount of information, I have written an extra article about the circumstances of this BIOS exchange, which explains the whole thing in detail. One can read this now under “AMD’s BIOS castling of the Radeon RX 5600 XT and the consequences for consumers and board partners: BIOS tangle, cooler differences and some crashes” for a better understanding. There I also describe the possible problems a potential buyer might face.

But back to the Powercolor RX 5600 XT Red Dragon. In this review I focused on the new BIOS in performance and silent mode when benchmarking the card and compared these two results with the performance mode of the old BIOS. The old silent mode is pretty silly, so I left it out. The GeForce GTX 1650 Super will certainly be annoyed by this. The bandwidth increase of up to 17% with 14 instead of 12 Gbps is of course brutal and you will notice it very clearly in the measurements.

I tested all cards again on the new test system with the Ryzen 9 3950X and focused the card selection on the direct opponents. Thus, besides the RTX 2060 6GB, a GeForce GTX 1660 Super and the 1660 Ti are included as well as the two RX Vega and the RX 5700 and 5700 XT from the AMD portfolio. There wasn’t more time to do so, as the BIOS only arrived on Friday (and then anothers on the weekend), whereby Windows had also received a few patches.

The fact that the GeForce RTX 2060 has been picked out as a counterpart is probably primarily due to its price. Because the UVP of 299 euro for the RX 5600 XT is set quite high, so that a slower card with original BIOS simply would not have been sold. Because with approx. 300 euro one lies exactly in the range, where there are the most favorable RTX cards in the trade. It will be however exciting to see, how much the better equipped models of the RX 5600 XT will then really cost in the shop and how large the price difference to the most favorable RX 5700 will be. This is exactly where I see a big problem. Unless AMD lets the rather hapless RX 5700 die slowly, whose price gap to the much faster XT version is simply much too small.

Either way, I will be surprised what this BIOS-enhanced Radeon can (and cannot) do. However, all three cards (Powercolor as AMD sample, MSI and Sapphire self-procured retail cards) had sporadic stability problems under longer full load and very extensive memory usage, which the board partners could confirm to me. If you get into such problems yourself, which can happen (but not with all cards), you can get back to stable areas with 50 MHz less memory clock. This only as additional info at the edge, because I will of course keep at it.

Technical data and picture gallery

The design is kept very simple and is dominated by the two chrome rings of the fan mounts. There are no big design highlights, which rather speaks for this more timelessly designed card. It is a true dual-slot card and is also quite light, which simplifies installation.

Matching this, the overview of the most important features:

Length (outer edge of slot bracket to end of card)	24 cm
Installation height (top edge of PCIe slot to top of the card)	12.5 cm
Installation depth at the front (cooler assembly to the underside of the board)	3.5 cm
Rear mounting depth (board to outside of backplate)	0.5 cm
Weight:	800 g
Shroud:	Black with chrome applications Aluminium, powder-coated
Output:	3x DisplayPort 1.4 1x HDMI 2.0
Features	1x 8-Pin

The four most important tabs of the MorePowerTool show a first overview of the individual BIOS settings:

The obligatory GPU-Z screenshot of both BIOSes is also included:

Finally, the table gives a nice overview of the remaining technical data of the current and older comparison models:

Karte	Powercolor RX 5600 XT Red Dragon	MSI RX 5700 Gaming X	AMD Radeon RX Vega 64	AMD Radeon RX Vega 56	MSI RTX 2060 Gaming X
Architektur (GPU)	Navi 10	Navi 10	Vega	Vega	Turing TU-106
CUDA Kerne / SP	2304	2304	4096	3585	1920
CUDA Kerne / SP	(36 CU)	(36 CU)	(64 CU)	(56 CU)	240 Tensor/ 30 RT
Textureinheiten	144	144	256	224	120
Textur-Füllrate (Gtexels/s)	233.3	248.4	395,8	330	330
Basis-Takt (MHz)	1560	1465	1274	1156	1365
Boost-Takt (MHz)	1620 (max.)	1625 (typisch) 1725 (max.)	1546	1471	1830
Speicher	6 GB GDDR6 12/14 Gbps	8 GB GDDR6 14 Gbps	8 GB HBM	8 GB HBM	6 GB GDDR6 14 Gbps
Busbreite (Bit)	192	256	2048	2048	192
Speicherbandbreite (GB/s)	336	448	483,8	410	336
ROP	64	64	64	64	48
L2-Cache	4 MB	4 MB	4 MB	4 MB	3 MB
TGP/TBP	135/150 W	185 W	295 W	219 W	160 W
Mrd. Transistoren	10,3	10,3	12,5	12.5	7.2
Die-Fläche (mm²)	251	251	495	495	314
Node	7 nm	7 nm	14 nm	14 nm	14 nm

Test system and software

As always, I benchmark with my own PresentMon GUI and interpreter software, which fills the Excel charts and extrapolates the graphical output (and only that one) in such a way that all graphs are exactly long and thus a uniform and comparable time line is created. The remaining evaluations up to percentiles and bar graphs are based on the real raw data from the measurement. The benchmark system is new and has been upgraded in some areas. Also because of this I have all games and cards once again completely new measured and tested.

I have also summarized the individual components of the test system in tabular form.

Test System and Equipment
Hardware:	AMD Rayzen 9 3950X MSI MEG X570 Godlike 4x 8GB G.Skill FlareX DDR4 3200 1x 2 TByte Aorus (NVMe System SSD, PCIe Gen. 4) 1x Seagate FastSSD Portable USB-C Seasonic Prime 1300 Watt Titanium PSU
Cooling:	Alphacool Eisblock XPX Pro (AM4, 2066) Alphacool Eiswolf (modified) Thermal Grizzly Kryonaut
Case:	Lian Li T70, Raijintek Paean Closed cCse / Open Benchtable
Monitor:	BenQ PD3220U
Power Consumption:	Non-contact direct current measurement on PCIe slot (riser card) Non-contact direct current measurement at the external PCIe power supply Direct voltage measurement at the respective connectors and at the power supply unit 2x Rohde & Schwarz HMO 3054, 500 MHz multichannel oscilloscope with memory function 4x Rohde & Schwarz HZO50, current clamp adapter (1 mA to 30 A, 100 KHz, DC) 4x Rohde & Schwarz HZ355, probe (10:1, 500 MHz) 1x Rohde & Schwarz HMC 8012, digital multimeter with memory function
Thermal Imager:	1x Optris PI640 + 2x Xi400 Thermal Imagers Pix Connect Software Type K Class 1 thermal sensors (up to 4 channels)
Acoustics:	NTI Audio M2211 (with calibration file) Steinberg UR12 (with phantom power for the microphones) Creative X7, Smaart v.7 Own anechoic chamber, 3.5 x 1.8 x 2.2 m (LxTxH) Axial measurements, perpendicular to the centre of the sound source(s), measuring distance 50 cm Noise emission in dBA (slow) as RTA measurement Frequency spectrum as graphic
OS:	Windows 10 Pro (1909, all Updates)