Friday 24 September 2010

Tech Report: Nintendo 3DS Hardware Analysis

We first took a look at how powerful we thought the 3DS might be right here, and then again here, just after we learned which GPU would be powering the system. Now it’s time to do this once again, as a few days ago IGN appeared to accurately reveal the complete 3DS spec sheet, with information encompassing everything from CPU type and final GPU clock speed, to the amount of memory on board, both for system and graphics use. In short, the complete picture has been unravelled right before our eyes.


The full specs list for the 3DS is as follows: the machine is powered by two ARM11 CPUs running at 266MHz, and a DMP PICA200 GPU clocked at 133MHz. It features 4MB of VRAM dedicated to graphics (textures, framebuffer, effects? That’s not clear yet), 64MBs of RAM, and 1.5GBs of flash memory for storage.

Looking at the above, we can see that the 3DS appears initially to be rather underpowered. The GPU speed is incredibly low for a modern handheld device, and the ARM11 CPU was last featured in the original iPhone and iPod touch, and certainly more than a fair bit weaker than the A4 Cortex powering the new iPhone 4. However, when looking closer at the hardware itself, the resolution it runs at, and just what graphical features will be running, and how they will be implemented, it is also clear that the hardware isn’t quite as stillborn as you might expect.

Current game demos like Resident Evil Revelations, and Metal Gear Solid 3 both showcase the machines strong graphical capabilities despite the on paper limitations. And it is also important to point out that Nintendo’s hardware, unlike that of the iPhone and other multimedia / general handheld devices, the 3DS isn’t likely to feature a performance sapping OS powering it, or a restrictive high-level API limiting what you can do graphically. Nope, it’s almost certain that with the 3DS it will be possible for developers to code directly to metal, thus ensuring that they get ever last drop of juice from what the hardware is capable of.



Taking into account the small screen size, and small screen resolution itself (800x240), then you find that the system’s overall performance is perfectly suited to this type of environment. There’s no point for example, in rendering dozens of millions of textured, layered, and complexly shaded polygons per-second on a small screen in which at such a low resolution - most of that will almost certainly go to waste. Instead, like we have said before Nintendo seems to have taken a balanced, economical approach to their next-gen handheld hardware. And this looks to be the right choice. Cost/performance wise, it looks set to get the job done comfortably, and when looking at the individual make up of the system’s internals we can see why.

The CPU for example, an ARM11 running at 266MHz, is unlikely to be doing any complex physics calculations, or highly advanced AI routines – these aren’t really needed for small doses of on the go gaming, so appears to be low spec, but entirely adequate for the task in hand. Of course we can expect basic physics, and the illusion of advanced AI with the chip – seeing as it is rated roughly in line with an Intel 486 CPU, then scripted AI events, and arcade-like physics are more than possible, and satisfactory.

Looking at what was achieved on the original iPhone, and the fact that developers were still hindered by Apple’s domineering software API, then you can easily expect a substantial improvement when coding direct to metal, or much closer with a less restrictive development environment. Better collision routines, AI etc. All that is possible when taking into account the chip in context of how the 3DS works in comparison.

The decision to downclock the GPU is a rather interesting factor, not least of all because the standard PICA 200 running at 200MHz is very low spec by today’s standard – trailing way behind the iPhone 4’s SGX535, but also because it’s unlikely to be that much less cost effective. Instead, like in our original assumptions, we assume that this downgrade was done in order to preserve battery life, whilst also providing a small, but altogether beneficial decrease in overall system cost.

Even with GPU’s downclocking to 133MHz, it still packs plenty of punch. The original PICA-200 running at 200MHz can push around a maximum of around 15.3 million polygons per-second in a best case scenario, although that is unlikely to be in a real-world game environment (30 or 60fps with full effects etc).


In the 3DS, where the clock speed has been lowered to 133MHz we can expect a further drop in performance. From what we can see with current game demos, is that the systems peak polygon performance (on first-gen software at least) looks to be around the 3 to 6 million mark per-second – just over that of the PSP, and equalling the mid-range table of what the PS2 can do. Of course this is assuming optimised conditions, seeing as none of the software looks like it pushing anything more than around 4, maybe five million polys per-second.

However, such low geometry counts seldom makes a big difference these days, especially where advanced shaders, and multiple texture layers are concerned. And this is where the 3DS shows us its trump card. With the addition of advanced fixed-function effects which simulate the use of programmable shaders, along with actual vertex shader capabilities, Nintendo’s handheld can do a lot more with less, polygon wise, thus negating what can be seen as a lack of overall polygon pushing power. Also on such a small screen, huge amounts of geometry is always going to be less beneficial than a string of useful visual effects.


In terms of memory, the system is pretty much on par with the PSP. The 3DS has 64MB of main memory, and 4MB of video RAM - basically the same as the PSP Slim & Lite (bar VRAM in which the PSP S&L has 8MB). Initially, the inclusion of only 64MB of memory for the overall system to use may seem limiting. However, when you consider that the 3DS is a cart-based system, and that large amounts of data can be streamed in real-time from the format, then 64MB appears to be a suitable amount given what’s expected of it.

The same could also be said of the system’s 4MB of video RAM. Although it does seem rather limiting at first - it’s not yet known whether it is simply being used as framebuffer memory, or to hold the entire rendered scene, complete with textures and fixed-function texture layers - it should be enough for most games given the overall make up of the system's architecture. Determining its impact on performance though, is somewhat guesswork at this point.

Saying that, assuming Nintendo has included an efficient texture compression system then 4MB should be more than enough to fit in both the framebuffer and graphics data as an all-in-one solution. At the 800x240 resolution games are rendering at, you’re not really going to need that much more space for decent image quality anyways.

Obviously we don’t know the bandwidth numbers for the system’s graphics memory, although current game demos clearly demonstrate performance beyond that of the PSP, and the PS2 with regards to visual effects. And that’s with pushing around a lot more through the graphics pipeline. The standard PICA-200 GPU running at 200MHz has a pixel fill-rate of around 800 million pixels per-second (more than the GCN but less than XB and Wii), so we can comfortably say that the downclocked 3DS revision features noticeably less that. Although by how much, we can’t really say.

Surprisingly, when looking at the raw numbers of the 3DS’s specifications, you can actually see that the machine isn’t all that much more powerful that Sony’s PSP, with the amount of memory being the same, and geometry counts being very similar, albeit a little closer to the low end, mid-range of the PS2. What gives the 3DS its visual edge it seems, is simply down to its GPU’s capacity for rendering loads of advanced fixed-function effects on screen in lieu of having proper pixel shaders. Per-pixel lighting is supported, as is bump-mapping, specular and diffuse reflections, refraction mapping, procedural texturing and soft shadowing.

All of these add serious clout to the final images the 3DS produces in its games, and is exactly why the likes of Resident Evil Revelations and Metal Gear Solid 3 looks so good. The former looking closer to current 360 and PS3 games than most titles on the original Xbox.

Lastly, the system also features 1.5GBs of flash memory, used primarily for user-based storage. We can expect this space to be occupied by downloadable content, and various music and media files the user has transferred onto the console. Interestingly, it appears that the system actually features a 2GB flash memory chip inside, leaving 512MB solely in the hands of the OS. It is likely that this will be used to upgrade the machine’s firmware further on down the line, adding new functionality to the unit and who knows what else.


With the final specifications of the 3DS revealed (minus the odd bit of info here and there) it is clear that the system is, at first glance, not blinding more powerful than the PSP as it originally appeared. Much of what makes the 3DS games graphically so impressive comes from cleaver implementation of layered texture effects, and some impressive texture compression. Obviously, stuff like total system bandwidth is still up in the air. Although we can see that Nintendo's machine is working smarter, rather than harder.

However, this just might be enough. From what we’ve seen of the software, the machine has no problems in overshadowing DC and PS2 games, even bettering some Wii and Xbox 1 titles, so the lacking nature of the machine’s raw specifications are certainly not the be all and end all of the story.

Like with the N64, GCN, NDS, Wii, and pretty much every games console they’ve ever done, Nintendo have always been clever in selecting cost-effective, but capable performing parts, ones which get the job done without needing as much raw grunt as its competitors. And this is exactly the case here with the 3DS. They could have gone with NVIDA’s Tegra 2 solution (and evidence points to the fact that they originally were going to), however, for what is likely to be either cost or power efficiency issues, decidedly to switch to the DMP PICA-200 chip instead.

The decision, however silly it might seem in the face of vastly superior smartphone tech, and the rumoured PSP2, makes sense when you consider that the main draw of their system is it’s ability of deliver a solid 3D experience without the need for the user to wear glasses, and at what is likely to be at a reasonable price. The fact that games for the system currently impress, despite paper limitations, is just another sign that the company has done the right thing, especially given the circumstances of the ever-increasing cost of having cutting edge hardware in the home.

Balancing impressive graphics hardware and a low entry price with mass-market adoption is usually not an easy task. But Nintendo has shown time and time again that it definitely knows what its doing in this sector. And the 3DS looks like being another shining example of just that.

4 comments:

  1. "it is clear that the system is, at first glance, not blinding more powerful than the PSP as it originally appeared. Much of what makes the 3DS games graphically so impressive comes from cleaver implementation of layered texture effects"

    I think you mean "blindingly," and "clever." Also, I know that a lot has been said about the 3DS running a leaner OS than the iPhone, isn't that contradicted by the fact that it multitasks, more so than even the iPhone (i.e. browsing the web while a game is running in the background.)

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  2. Even though this could be a good report it was confirmed that it can push 15.3 million polyps per secong and has 128 mb of ram.and also I see an error when people say its a dual-core 266 mhz because that makes a total of 532 MHz . Thats almost not possible running an os with animations like that with no lag. My iPod touch 4g has and apple a4 clocked at 800 MHz and has some lag on things like the multi tasking bar so I don't see how that works plus the GPU couldn't be clocked at that while pushing 15.3 million polygons per sec

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  3. But I like how you guys made the 3ds seem nice though. But my ideas are will in theory so who knows you guys might be right

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