Ashes of the Singularity Revisited: A Beta Look at DirectX 12 & Asynchronous Shadingby Daniel Williams & Ryan Smith on February 24, 2016 1:00 PM EST
More on Async Shading, the New Benchmark, & the Test
As we’ve previously covered the principles of asynchronous shading in depth, we’re not going to completely reiterate what it does and what it’s for in this preview. However for our non-regular readers, here is a quick high-level overview of async shading.
GPUs are, at their most fundamental levels, a large collection of arithmetic logic units (i.e. CUDA Cores/Stream Processors) combined with various other scheduling and fixed function graphics hardware. Because graphics rendering is an embarrassingly parallel problem, GPUs are able to easily subdivide the work in processing a scene into multiple parts, meaning it is relatively easy to scale up the performance of a GPU by adding more ALUs. At the same time because any given graphics operation is likely being applied to a large number of pixels at once, ALUs are grouped together to execute a single instruction over multiple pieces of data (SIMD), which greatly limits the independence of the ALUs, but in turn also allows them to be packed far more densely.
In a traditional (DX11 and earlier) graphics rendering scenario, a GPU will be occupied with one job/task at any given time, time sharing the GPU if necessary in order to let multiple applications use it. By and large this is fine, especially as games are run in a near-exclusive manner and full-screened. However within even a single application the same rules apply: with certain exceptions, the GPU can only handle one task at a time. So if a game wishes to execute multiple tasks, it must execute them in serial, one after another.
Again in a traditional environment all of this is fine, however as GPUs have advanced they have begun to test the limits of a single execution queue. As GPUs add ever more ALUs, even embarrassingly parallel begins to break down, and it is harder to keep a GPU filled the more ALUs there are to fill. Meanwhile new paradigms such as virtual reality have come along, where certain operations such as time warping require executing them with far less latency than the traditional high throughput/high latency execution model of a GPU allows. Thus GPU developers and software developers alike have needed the means to concurrently execute multiple jobs on a GPU’s ALUs, and this is where asynchronous shading comes in.
Whereas the traditional model is serial execution, asynchronous shading is executing multiple jobs over the ALUs at the same time. By implementing multiple queues within a GPU’s thread scheduler, a GPU executing jobs in an asynchronous manner can potentially run upwards of several jobs at once; more queues presents more options for work. Doing so can allow a GPU to be better utilized – by filling the underutilized ALUs with additional, related work – and at the same time work queues can be prioritized so that more important queues get finished sooner, if not as soon as outright possible.
Meanwhile on the API side of matters, while this functionality has been implemented into GPUs for a few years now, DirectX 11 and earlier APIs aren’t built for this paradigm and are unable to submit work to multiple queues. As a result this functionality has been going largely unused. But along with modernizing multi-core rendering, DirectX 12 also modernizes work queuing, and for the first time for DirectX gives developers the ability to issue work to multiple queues. There are a bunch of limitations here – in particular, only one queue can access non-ALU graphics hardware – but overall it gives both GPU developers and game developers tools to further improve performance and better implement certain rendering algorithms and technologies.
Like DirectX 12’s other headlining features, async shading is a powerful tool, but it’s one whose potency will depend on the hardware it’s being executed on and what a game is attempting. Async shading itself is a bit of a catch-all term – not unlike calling a CPU/SoC a multi-core CPU – and can mean any number of things depending on the context. Hardware can have a different number of queues, different rules on how resources are shared, different rules on how queues are scheduled, etc. So not all async shading capable hardware is the same, and there will be varying levels of how much work can actually be done concurrently. At the same time from a throughput perspective async shading can only fill ALUs that aren’t already being fully utilized, so the upper limit to its benefits is whatever resources aren't already being used.
All of this is in turn closely tied to the actual application being run, and how much of its shading/compute tasks can actually be executed concurrently. An application that can issue work to multiple queues but doesn’t actually have much work to issue to multiple queues will not benefit as much, whereas an application that can fill up multiple queues may benefit more. Ultimately it’s a technology whose benefit will vary on a case-by-case basis, with Ashes of the Singularity being one possible way to use the technology.
FAQs & More
Jumping back into the real world and the business that surrounds it, even though Ashes is still in beta, as one of the first games to use DX12 async shading, it’s going to be a big deal.
AMD's Radeon Technologies Group for their part has been heavily promoting Ashes for some time now, and for them the release of this latest beta is definitely a major event. From a marketing standpoint RTG has been touting the benefits of low-level APIs and async shading for some time now, and this latest beta of Ashes brings the first potential killer app one step closer. Meanwhile from a technical perspective it’s fair to say that Ashes via DX12 addresses many of RTG’s perceived weakspots over the past few years: driver CPU utilization, multi-GPU performance, and GPU shader/ALU utilization. A successful DX12 game with both DX12 and DX11 rendering paths gives RTG a prime opportunity to show that these problems are resolved under DX12, so RTG is keen to show that off. To that end, we do want to quickly note that while this beta is being handled through Oxide/Stardock, RTG has also sent the press their own thoughts in a new Ashes benchmark guide.
Meanwhile Oxide is distributing their own benchmark guide to the press for this latest beta. At the very end of the guide is a FAQ, which gives a good overview of what new functionality has been implemented in the latest beta, and what the developer’s polices are on IHV relations. Also included is a brief summary of Oxide’s plans to support Vulkan in the future.
I’ve heard you allow source access to vendors? Is this true?
Yes. Oxide and Stardock want our game to run as fast as possible and with as few issues as possible on everyone’s hardware. Thus, we have an open door policy. For security reasons, we can’t dive into details, but we should be clear that this level of source access is almost unprecedented in the game industry. It is not common industry practice to share source code with IHVs.
The basic way it works is that we have branches in our code tree. Unfortunately, we can’t give complete unrestricted access to our entire source tree to everyone for legal reasons (our lawyers would rather us not share source at all, but we overrode them ;)), but we have created a special branch where not only can vendors see our source code, but they can even submit proposed changes. That is, if they want to suggest a change our branch gives them permission to do so. Naturally, any changes will be carefully reviewed by us and we don’t think it’s ever been made more simple. However, we stress that such changes are relatively rare and typically consist of bug fixes.
This branch is synchronized directly from our main branch so it’s usually less than a week from our very latest internal main software development branch. IHVs are free to make their own builds, or test the intermediate drops that we give our QA. Typically, IHVs receive builds about the same time as our own QA department. However, because they can make their own builds, IHVs can end up with builds that are more current then our own QA department.
Obviously, Oxide and Stardock are taking a huge risk in giving such level source access to everyone. We have significant IP in our code base which must actively protect. However, we’re strong believers in being transparent about our development process. Our hope is that sharing this information will make everyone’s products better.
Does Oxide optimize specifically for any hardware?
Oxide primarily optimizes at an algorithmic level, not for any specific hardware. We also take care to avoid the proverbial known “glass jaws” which every hardware has. However, we do not write our code or tune for any specific GPU in mind. We find this is simply too time consuming, and we must run on a wide variety of GPUs. We believe our code is very typical of a reasonably optimized PC game.
How much performance should I gains from a second graphics card in my computer?
This depends on your video cards. We expect around 70% scaling if you use two of the same card. However, mixing cards can vary the results. For example, you will never get more than twice the speed of the slowest video card. You would be better off just using the new card alone. If you are mixing and matching cards, we recommend running the benchmark in single GPU mode first, then matching cards which have similar single GPU scores.
Why do multiple GPUs matter?
Multiple GPU configurations are increasingly common amongst gamers. Moreover, it allows users with a reasonably new video card to greatly improve their performance by buying a second card, even if it is a different brand or model and gain performance. This will begin to matter more as gamers begin to migrate to 4K and higher resolution displays.
Where can I get detailed benchmark results?
In documents\my games\ashes of the singularity you will find a Benchmarks directory. Within it, the detailed log is kept. This log will store not only the aggregate timings, but additional information regarding the timings of every frame of the log.
Where can I change settings?
In documents\my games\ashes of the singularity you will see a settings.ini file. Within that, you can see many different settings to try. This should only be done by very technical, advanced users. Should you place the game in some sort of settings that prevent loading, you may always delete the settings.ini file and the game will regenerate it, setting it to default values.
Is Oxide still supporting Mantle?
Oxide is migrating the effort spent on Mantle to support on the upcoming Vulkan API. We have no solid time-table for Vulkan support at this time, however.
How close to final is the code?
In the era of digital updates, nothing is every really final. However, the code is nearing release form for our release on March 22nd. We expect few changes related to graphics rendering to occur before release.
Does Oxide/Stardock have some sort of business deal with any IHV with regards to Async Compute? Is Oxide promoting this feature because of some kind of marketing deal?
No. We have no marketing or business agreement to pursue or implement this feature. We pursued the multiple command queues also known as async compute because it is a new capability in D3D12 and Windows 10. That is, we implemented it entirely on our own accord and curiosity. Oxide is committed to exploiting as many capabilities of DX12 as possible.
In the previous benchmark, were you using async compute?
We had very basic support of this feature. During the process of development for Multi-GPU, we realized that some of the lessons learned and code written could be applied to async compute. Thus, this benchmark 2 has a much more advanced implementation of this feature.
Do you have any recommended settings?
All of the presets are appropriate for certain class of hardware. Internally, it is our expectation that a user with a high end video card would run at Extreme at 1600p. Though our game will attempt to auto detect settings appropriate for the video card, we tend to be a bit conservative with this detection and let users turn settings up.
Ashes of the Singularity Benchmark 2.0
Along with the new functionality introduced in this week’s beta, this release also contains a modified version of the benchmark distributed with the previous version of Ashes. The new benchmark is still 3 minutes long and many of the camera tracks/unit placements are identical, but this latest version utilizes the models for another of the game’s factions, implements newer graphics effects, and is overall intended to be a more strenuous benchmark (performance optimizations not withstanding).
And with that out of the way, let’s dive into benchmarking. As we don’t typically benchmark beta games, we want to reiterate that this is a true beta. We’ve already seen the performance of Ashes shift significantly since our last look at the game, and while the game is much closer to competition now, it is not yet final. Further optimizations or driver releases likely will further alter the performance of the game, so nothing here should be considered definitive about how the final game will perform.
|CPU:||Intel Core i7-4960X @ 4.2GHz|
|Motherboard:||ASRock Fatal1ty X79 Professional|
|Power Supply:||Corsair AX1200i|
|Hard Disk:||Samsung SSD 840 EVO (750GB)|
|Memory:||G.Skill RipjawZ DDR3-1866 4 x 8GB (9-10-9-26)|
|Case:||NZXT Phantom 630 Windowed Edition|
|Video Cards:||AMD Radeon R9 Fury X
ASUS STRIX R9 Fury
AMD Radeon R9 285
AMD Radeon HD 7970
NVIDIA GeForce GTX Titan X
NVIDIA GeForce GTX 980 Ti
EVGA GeForce GTX 960
NVIDIA GeForce GTX 780 Ti
NVIDIA GeForce GTX 680
|Video Drivers:||NVIDIA Release 361.91
AMD Radeon Software 16.1.1 Hotfix
|OS:||Windows 10 Pro|
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TheJian - Sunday, March 6, 2016 - linkThe highlight here isn't dx12, but rather how badly AMD is doing DX11, which is what most games will run on for quite some time to come (only 10% run win10, and much of that base doesn't have a card that can run this game at even 1080P at 30fps). A decent sized group of win10 users go back to win7 also...LOL. I'm more interested in Vulkan, now that it's out, I think it will take over dx12 after a year as it runs everywhere but consoles and they are a totally different animal anyway.
This just goes to show what happens when you can't afford to support your products. IE, AMD constantly losing money quarter after quarter while R&D drops too. NV on the other hand, has the cash to massively improve dx11 (which is 90% of the market, more if you consider not everyone running win10 is even a gamer), while also making a dx12 driver. AMD clearly needs to devote more money to their current card users (dx11), but can't afford to. AMD is spending their money on the wrong things time and time again. You can blame consoles for this last 5yrs of losses, as that money should have went into making ZEN 4yrs ago, much faster DX11 support, mobile chips should be on rev 5-6 etc like NV and everyone else etc etc. We would not be looking at NV owning 82%+ of the gpu market right now, and Intel would have had a major competition problem for the last 4-5 yrs instead of basically being able to pour all their resources into mobile while beating AMD to death on cpu.
EugenM - Tuesday, June 7, 2016 - linkI cannot speak of AMD CPUs, but AMD gpus are doing very well on DX11 games, its not the DX11 implementation of AMD that is at fault for performance issues, rather than Nvidia sabotaging time and time again their games, every game which is labeled Nvidia has a potential to sabotage the entire AMD lineup and AMD has little to nothing to do about it, this is not a tin foil conspirancy theory, its a fact proven game after game after game and easelly found on google, try searching for batman games and other epic unreal engine games, try searching for crysis 2 and nvidia gameworks games, youll see what i mean. If youre a small company you cannot really do much about a big monopoly like Nvidia and Intel youre 1 fighting vs 2. Dirty tactics against AMD and even illegal tactics have also been applied by Intel vs AMD, thats why Intel was fined with a huge ammount of money but in the end the damage to AMD was already done and it was too late for AMD to recover properly. You need to realise not everything is so simple.
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