Rx 580 amd
Cartes graphiques Radeon™ RX 580 | AMD
Présentation de la Radeon RX 580
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Battlefield 1 Call of Duty: Infinite Warfare Resident Evil 7 Radeon™ RX 580 Radeon™ R9 380Les résultats peuvent varier.
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Conçu dans les règles de l'art. Créé dans les moindres détails. Incroyablement intuitif.
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Élimine les déchirements d'écran, et ce, sans saccade ou latence
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En savoir plus AFFICHER PLUS DE TECHNOLOGIES GPU Taux de remplissage pixel max. Taux de remplissage texture max. Configuration requise Typical Board Power (Desktop) Bloc d’alimentation recommandé Mémoire Vitesse mémoire (efficace) Bande passante mémoire max. Format de rendu pris en charge Connectivité Caractéristiques Technologies prises en charge Radeon FreeSync™ technologie Technologie AMD LiquidVR™ AMD Eyefinity technologie Technologie AMD CrossFire™ AMD CrossFire™ (Bridgeless) Contrôle de la fréquence d'images cible (FRTC) Technologie de processus 14nm de 3ème génération Technologie AMD PowerTune Décodeur vidéo unifié (UVD) Moteur de codec vidéo (VCE) Super résolution virtuelle (VSR) Général Système d'exploitation pris en charge Windows 10 - 64-Bit Edition Windows 7 - 32-Bit Edition Windows 7 - 64-Bit Edition*Offre disponible uniquement via les Revendeurs participants. Pour les plus de 18 ans uniquement. Après l'achat, le code de coupon doit être utilisé avant le 6 avril 2019, sinon le coupon sera annulé. Les restrictions de résidence et autres s'appliquent. Pour obtenir les conditions générales complètes, visitez le site amdrewards.com. La période de promotion débute le 15 novembre 2018 et se termine le 9 février 2019 ou à l'épuisement des codes de coupon, la première échéance prévalant. Le produit AMD éligible doit être acheté durant la période de promotion. Offre nulle en cas d'interdiction.
©2018 Ubisoft Entertainment. Tous droits réservés. ©2018 Rebellion Developments Ltd. Tous droits réservés. ©2018 Stardock Entertainment.
- Les GPU dédiés AMD Radeon™ et FirePro™ exploitant l'architecture Graphics Core Next consistent en de multiples moteurs d'exécution distincts appelés Unités de calcul (« CU »). Chaque unité de calcul contient 64 shaders (« processeurs de flux ») fonctionnant ensemble.
- Tests effectués par le laboratoire de performances AMD le 9 mars 2017 en utilisant un processeur Intel Core i7 5960X (à 3,0 GHz), 16 Go de mémoire DDR4-2 666 MHz, pilote d'affichage AMD 17.10 et Windows 10 (64 bits). Les configurations peuvent varier en fonction des assembleurs de PC et donc produire des résultats différents. Les jeux suivants ont été testés en 1440p : Battlefield 1 (niveau de détails ultra élevé, DirectX 12), Call of Duty: Infini Warfare (réglages haute qualité, DirectX 11), For Honor (réglages haute qualité, DirectX 11), DOOM (niveau de détails ultra élevé, Vulkan) et Resident Evil 7 (niveau de détails ultra élevé, DirectX 11). La Radeon™ RX 580 (8 Go) a obtenu des scores de 65,0, 66,9, 69,5, 73,3 et 74,2 respectivement. La Radeon™ R9 380 (4 Go) a obtenu des scores de 43,5, 43,2, 40,3, 45,3 et 41 respectivement. Tous les scores sont une moyenne de FPS obtenue après 3 exécutions avec les mêmes paramètres. Les performances peuvent être différentes si des versions plus récentes des pilotes sont utilisées.
- La garantie des produits AMD ne couvre pas les dégâts causés par l'overclocking, même lorsque celui-ci est activé par du matériel et/ou un logiciel AMD.
- FreeSync 2 ne nécessite pas d'écran compatible HDR. Le pilote peut configurer l'écran en mode natif lorsque du contenu HDR pris en charge par FreeSync 2 est détecté. Sinon, le contenu HDR nécessite que tous les éléments du système soient entièrement compatibles avec cette norme, dont la carte graphique, les pilotes graphiques et l'application. Le contenu vidéo doit être au format HDR et visionné sur un lecteur compatible. Le contenu en mode fenêtré nécessite une prise en charge par le système d'exploitation.
www.amd.com
Radeon™ RX 580 Grafikkarten | AMD
Wir stellen vor: Radeon RX 580
Mit dem Kauf ausgewählter AMD Radeon™ RX Grafikkarten oder teilnahmeberechtigter PCs erhältst du bis zu drei PC-Spiele GRATIS!*
Battlefield 1 Call of Duty: Infinite Warfare Resident Evil 7 Radeon™ RX 580 Radeon™ R9 380Ergebnisse können variieren.
Kein Ruckeln. Kein Verzerren. Einfach nur Gaming.
Tauche in authentische Welten der der virtuellen Realität mit den VR Ready Premium-Lösungen ein
Weitere Infos Kunstvoll gestaltet. Sorgfältig hergestellt. Unglaublich intuitiv.
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Sich an das Spiel anpassende Energieeinsparung
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Weitere Infos GPU Voraussetzungen Typical Board Power (Desktop) GPU-Speicher Speichergeschwindigkeit (Effektiv) Unterstütztes Rendering-Format Konnektivität Features Unterstützte Technologien Radeon FreeSync™ Technologie AMD LiquidVR™ Technologie AMD Eyefinity Technologie AMD CrossFire™ Technologie AMD CrossFire™ (Bridge-frei) Frame Rate Target Control (FRTC) 14nm-Prozesstechnologie der 3. Generation AMD PowerTune Technologie Unified Video Decoder (UVD) Virtual Super Resolution (VSR) Allgemein Unterstützte Betriebssysteme Windows 10 - 64-Bit Edition Windows 7 - 32-Bit Edition Windows 7 - 64-Bit Edition*Angebot nur bei teilnehmenden Händlern erhältlich. Teilnahme ab 18 Jahre. Nach dem Kauf muss der Gutscheincode bis zum 6. April 2019 eingelöst werden, danach verliert er seine Gültigkeit. Es gelten zusätzliche Einschränkungen, z. B. des Wohnsitzes. Vollständige Teilnahmebedingungen unter www.amdrewards.com.
Der Aktionszeitraum beginnt am 15. November 2018 und endet am 9. Januar 2019 oder früher, sobald alle Gutscheincodes verbraucht sind. Das teilnahmeberechtigte AMD-Produkt muss während des Aktionszeitraums gekauft werden. Das Angebot ist ungültig, wo es gesetzlich verboten ist.
- Die auf der Graphics Core Next-Architektur basierenden diskreten AMD Radeon™ und FirePro™ GPUs bestehen aus mehreren diskreten Ausführungseinheiten, bekannt als Recheneinheit (Compute Unit, „CU“). Jede CU umfasst 64 im Einklang arbeitende Shaders („Stream-Prozessoren“).
- Tests wurden am 9. März 2017 in den AMD Leistungslabors unter Verwendung eines Intel Core i7 5960X (3,0GHz), eines 16 GB DDR4-2666 MHz Speichers, eines AMD Display-Treibers 17.10 und von Windows 10 (64 Bit) durchgefühtt. PC-Hersteller wählen u. U. andere Konfigurationen, so dass die Ergebnisse in einem solchen Fall abweichen. Die folgenden Spiele wurden mit 1440p getestet: Battlefield 1 (Ultra-Einstellungen, DX12), Call of Duty: Infinite Warfare (Hohe Qualität, DX11), For Honor (Hohe Einstellungen, DX11), DOOM (Ultra-Einstellungen, Vulkan) und Resident Evil 7 (Ultra-Einstellungen, DX11). Die Radeon™ RX 580 (8 GB) erreichte jeweils einen Wert von 65,0, 66,9, 69,5, 73,3 und 74,2. Die Radeon™ R9 380 (4 GB) erreichte jeweils einen Wert von 43,5, 43,2, 40,3, 45,3 und 41. Alle Werte sind Bilder pro Sekunde und sind ein Durchschnitt aus 3 Testläufen mit den gleichen Einstellungen. Die Leistung kann je nach den verwendeten neuesten Treibern variieren.
- Die AMD Produktgarantie gilt nicht für Schäden, die durch Übertaktung verursacht wurden. Dies gilt auch, wenn die Übertaktung mit AMD Hardware und/oder Software aktiviert wurde.
- FreeSync 2 benötigt keine HDR-fähigen Monitore; der Treiber kann den Monitor in den systemeigenen Modus versetzen, wenn FreeSync 2-unterstützter HDR-Inhalt erkannt wird. Andernfalls erfordern HDR-Inhalte, dass das System so konfiguriert ist, dass es als voll HDR-fähige Kette fungiert, einschließlich Grafikkarte, Grafiktreiber und Anwendungen. Videoinhalt muss HDR-Inhalt sein und auf einem HDR-fähigen Player abgespielt werden. Inhalt im Fenstermodus erfordert Unterstützung durch das Betriebssystem.
www.amd.com
AMD Radeon RX 580 8GB: Power Consumption
Our exploration of power consumption begins with a look at the loads while running different tasks. After all, this is where AMD made the most headway with Radeon RX 580.
Specifically, power consumption is way down with multiple monitors attached, so long as you're running them all at the same resolution. Moreover, power use drops while watching video using hardware acceleration. An aggressively-overclocked card like Sapphire's Nitro+ Radeon RX 580 Limited Edition set to its O/C mode really shows off the effect of these lower GPU and memory clock rates.
Of course, it'd be great to see AMD roll these enhancements out to older Polaris-based cards via firmware update, but it sounds like the company has no plans to do this.
At 1411 MHz in silent mode and 1450 MHz in boost mode, you're talking about much higher clock rates than Ellesmere was originally set to run at. Impressively, Sapphire enables these frequencies without using more power than the Radeon RX 480. In our gaming loop, its Nitro+ Radeon RX 580 operates at an almost-constant 1450 MHz, whereas the previous-gen card was limited to 1350 MHz and used just as much power. One explanation for this is lower leakage current. A much better cooling solution helps keep GPU temperatures down, and we estimate this provides an advantage of ~10W.
The Radeon RX 580's higher frequency does come at a price, though: it requires a higher voltage setting.
Sapphire's Nitro+ Radeon RX 480 averages 1.15V and peaks at 1.1563V. Those numbers increase to an average of 1.1688V and a peak of 1.19V for the company's Nitro+ Radeon RX 580 Limited Edition, creating more power loss. This doesn't show up in the graph, though, because of the RX 480 card's much higher leakage current.
A Closer Look at Silent Mode
The Nitro+ Radeon RX 580 Limited Edition ships with a silent mode clock rate of 1411 MHz, which matches the boost mode setting of Sapphire's non-Limited Edition model. As a result, our results should apply to that card as well.
First, we present power consumption during our gaming loop:
The rails are balanced fairly well, though there are some brief peaks that exceed the motherboard slot’s maximum rating of 5.5A.
During our stress test, all of the numbers go up (some of them significantly). Now the motherboard slot consistently nudges up to the PCI-SIG specification's limits.
Illustrating the motherboard slot’s results with a bar graph shows just how close to the limit Sapphire gets with its Nitro+ Radeon RX 580 Limited Edition. The peaks aren’t particularly meaningful since they're brief; it's the constant loads you want to focus on. Those stay well within a safe range.
A Closer Look at Boost Mode
Switching over to boost mode pushes the Nitro+ Radeon RX 580 Limited Edition to a GPU clock rate of 1450 MHz. That's a big step up from the vanilla version's ceiling, but it should still represent what you might see after some manual overclocking. With this in mind, let’s take a look at power consumption during our gaming loop:
The rails are still balanced fairly well, even though we observe short peaks that exceed the motherboard slot’s maximum rating of 5.5A once again.
Again, our results increase significantly during the stress test, with the motherboard slot’s power consumption hovering around the PCI-SIG specification's limit.
The motherboard slot’s load doesn't increase, since the GPU is driven by the auxiliary power connectors. However, our numbers with manually overclocked memory, which is supplied by the PCIe slot, show Sapphire toeing the line.
Power Savings with Chill
AMD is making a big deal of its Chill technology with Radeon RX 580. This isn't new, though. Check out Benchmarking AMD Radeon Chill: Pumping The Brakes On Wasted Power from last December if you want more information.
Comparing To GeForce GTX 1060, 1070, and 1080
For a point of comparison to Radeon RX 580, check out the following power consumption measurements from several GeForce GTX 1060s. They fall well below Sapphire's overclocked board.
Why is it necessary to throw this information in as a post-script. Well, we think it's pretty important to mention that Sapphire's Nitro+ Radeon RX 580 Limited Edition uses as much power as overclocked third-party GeForce GTX 1080s in our gaming loop:
Bottom Line
The Radeon RX 580 shows us that when finesse isn't in the cards, brute force works, too. Dialing in a higher core voltage (and enduring its higher power losses) are the price you pay for a few extra megahertz of GPU clock rate. The improvements to get excited about are found elsewhere: AMD's Radeon RX 580 demonstrates lower power consumption in multi-monitor configurations and hardware-accelerated video playback thanks to a new memory clock state.
MORE: Best Graphics Cards
MORE: Desktop GPU Performance Hierarchy Table
MORE: All Graphics Content
www.tomshardware.com
AMD RX 580 8GB review: the best-value graphics card you can jam into your gaming PC
The AMD RX 580 is now the elder statesman of the current Radeon lineup, but when it first arrived in the office the mildly updated Polaris GPU was a bit of a disappointment. Not only were we hoping the 500-series cards would herald a new world of Vega-based graphics cards (which ended up being their own unique brand of disappointing), it was barely any different from the RX 480 that had landed a year earlier.
But a year and a half, and one crypto mining boom later, the RX 580 has managed to deliver on the ‘fine wine’ promise that AMD attaches to all of its silicon. It’s now the graphics card that we would recommend as the best GPU to drop into your gaming rig… unless you have an infinite money tree and can spend $1,200 on an RTX 2080 Ti anyways.
It’s an impressively powerful, well-priced graphics card, with a comparatively huge pool of video memory and an aptitude for dealing with modern graphics APIs. And at just $190 (£197) it has very little competition in the market, with Nvidia’s GTX 1060 only giving it pause in a few DX11 titles and still being more expensive on the whole. Even the upcoming GTX 1660 Ti may struggle against its genuine value proposition.
Though it does have a little more competition in the mainstream market right now, as AMD has launched its ‘new’ RX 590 graphics card. That’s just a moderate 12nm die-shrink of the Polaris GPU at the heart of the old RX 580, but it’s also a timely reminder that AMD’s mainstream graphics cards are your best bet for great-value gaming performance right now.
- GPU specs
- Benchmarks
- Performance
- Verdict
AMD RX 580 specs
Polaris Enhanced. That’s what AMD called the updated 500-series of graphics cards, but they were never expecting to encourage anyone that spent their cash on a last-gen Polaris card to upgrade. Despite calling the GPUs at the heart of both the new RX 580 and RX 570 Polaris 20 it is still really the same 14nm Polaris 10 chip they used, to great effect, in the RX 480 and RX 470 cards.
The ‘enhanced’ bit comes from the fact that 12 months on from the initial Polaris release both the 14nm FinFET technology and the 4th Gen GCN architecture used in the latest AMD Radeon cards had a full year to mature. That means the production process and yields improved and the resulting GPUs were more robust.
| AMD RX 590 | AMD RX 580 | Nvidia GTX 1060 | |
| Manufacturing process | 12nm | 14nm | 16nm |
| Die size | 232mm2 | 232mm2 | 200mm2 |
| Stream processors | 2,304 | 2,304 | 1,280 |
| Texture units | 144 | 144 | 80 |
| ROPs | 32 | 32 | 48 |
| Memory size | 8GB GDDR5 | 8GB GDDR5 | 6GB GDDR5 |
| Memory bus | 256-bit | 256-bit | 192-bit |
| TDP | 225W | 185W | 120W |
| Price | $279 | £250 | $210 | £195 | $250 | £220 |
That’s the main reason AMD have been able to release RX 580 cards with a higher base clock speed than the reference RX 480 cards saw at launch. The base/boost clocks of the original RX 480 were 1,120MHz and 1,266MHz respectively, while the reference spec of the RX 580’s Polaris 20 chip is set at 1,257MHz and 1,340MHz. With the general tightening up of the GPU’s manufacturing process AMD can ship out cards using pretty much the previous chip’s peak performance as a starting point to work up from.
Though if you were hoping for the same 40 compute unit, 2,560 core, Polaris GPU Microsoft shipped with the AMD-powered Xbox One X you’d be disappointed. Outside of the reference clock speed bump the RX 580 is the same GPU beast as the RX 480. The core configuration is identical – the 14nm Polaris 20 in the new card is still sporting 36 compute units (CUs) with 2,304 stream processors spread out across them. Alongside that are the same 144 texture units and 32 ROPs.
The memory system is the same too, with 8GB of GDDR5 delivering a full 256GB/s of memory bandwidth. And, like the 400 series cards, there are both 4GB and 8GB versions of the RX 580, as well as the RX 570.
All that seems to have really changed then, clockspeed hike aside, is the new RX 580 cards have a higher TDP to allow for the enhanced clockspeeds the new designs are shipping with. Those clockspeeds above are just the suggested reference design specs, but the fact AMD never created any reference samples for the new cards was indicative of their refresh/rebadge status, and also that most RX 580 cards would be expensive factory overclocked ones even if the prices weren’t being artificially boosted by the gluttonous mining community.
Our XFX sample runs at 1,366MHz, while the Asus STRIX card hits a heady 1,411MHz out of the box. The original STRIX edition of the RX 480, on the other hand, runs at a default 1,330MHz. That itself was a pretty hefty boost in factory-overclock terms, but the new variant from Asus is almost 100MHz ahead of that.
AMD RX 580 benchmarks
PCGamesN Test Rig: Intel i7 8700K, Asus ROG Strix Z370-F Gaming, 16GB Crucial Ballistix DDR4, Corsair HX1200i,Philips BDM3275
AMD RX 580 performance
The RX 580 is only a little behind the newer RX 590 in terms of overall gaming performance, and generally there is only ever a few frames per second on average between them. That’s something of a surprise given the significantly higher clock speeds offered by the updated, 12nm cards.
That’s not really the key battleground for the RX 580, however. How it performs against the Nvidia GTX 1060 is where the real fight is, and that’s far more interesting. On the whole the AMD Graphics Core Next architecture has the edge in overall gaming performance. There are a few instances where the Nvidia GPU holds sway, but that’s only ever in last-gen DirectX 11 games. In the more modern APIs, and DirectX 12 in particular, the AMD silicon has the GeForce card beat.
When you take a step up in gaming resolution the improved memory subsystem of the AMD card comes to the fore. With another 2GB of GDDR5 memory, and a wider 256-bit memory bus, the RX 580 in 8GB trim is better able to deal with the rigours of high-res textures and the extra overall pixel count.
That’s not to say the GTX 1060 isn’t still a great performer at this end of the market, it most certainly is, but when the performance is so close pricing becomes an even bigger consideration. And when the RX 580 just has the edge on gaming frame rates overall, and the edge in pricing, it doesn’t look good for the GeForce card.
Where the Nvidia GPU does have a significant edge, however, is in the classic GeForce efficiency. Back in the Maxwell days Nvidia made a play for efficiency when it was unable to action a silicon die shrink, and that move is still paying off. The GTX 1060, outside of its reference cooler design, often runs cooler than the RX 580, but definitely draws far less power to game at almost the same level.
AMD RX 580 verdict
The RX 580 is hands-down the best-value graphics card on the market today. With the pricing problems of the mining boom times a distant memory, the RX 580 8GB cards can be picked up for as little as $190 (£196), and that’s a comparative bargain. Given the fact the closest Nvidia competitor card is $250 (£220) it’s tough to recommend the more expensive GeForce GPU’s slightly weaker overall performance.
The two mainstream super-middleweight GPUs have been going toe-to-toe since they were both launched, swapping blows on a regular basis, but with more and more newly released games favouring the improved memory system of the AMD card the RX 580 is the mainstream GPU we’d recommend. Even over the faster, mildly updated 12nm RX 590 too.
www.pcgamesn.com
