The Xbox One: Hardware Analysis & Comparison to PlayStation 4
by Anand Lal Shimpi on May 22, 2013 8:00 AM ESTMemory Subsystem
With the same underlying CPU and GPU architectures, porting games between the two should be much easier than ever before. Making the situation even better is the fact that both systems ship with 8GB of total system memory and Blu-ray disc support. Game developers can look forward to the same amount of storage per disc, and relatively similar amounts of storage in main memory. That’s the good news.
The bad news is the two wildly different approaches to memory subsystems. Sony’s approach with the PS4 SoC was to use a 256-bit wide GDDR5 memory interface running somewhere around a 5.5GHz datarate, delivering peak memory bandwidth of 176GB/s. That’s roughly the amount of memory bandwidth we’ve come to expect from a $300 GPU, and great news for the console.
Xbox One Motherboard, courtesy Wired
Die size dictates memory interface width, so the 256-bit interface remains but Microsoft chose to go for DDR3 memory instead. A look at Wired’s excellent high-res teardown photo of the motherboard reveals Micron DDR3-2133 DRAM on board (16 x 16-bit DDR3 devices to be exact). A little math gives us 68.3GB/s of bandwidth to system memory.
To make up for the gap, Microsoft added embedded SRAM on die (not eDRAM, less area efficient but lower latency and doesn't need refreshing). All information points to 32MB of 6T-SRAM, or roughly 1.6 billion transistors for this memory. It’s not immediately clear whether or not this is a true cache or software managed memory. I’d hope for the former but it’s quite possible that it isn’t. At 32MB the ESRAM is more than enough for frame buffer storage, indicating that Microsoft expects developers to use it to offload requests from the system memory bus. Game console makers (Microsoft included) have often used large high speed memories to get around memory bandwidth limitations, so this is no different. Although 32MB doesn’t sound like much, if it is indeed used as a cache (with the frame buffer kept in main memory) it’s actually enough to have a substantial hit rate in current workloads (although there’s not much room for growth).
Vgleaks has a wealth of info, likely supplied from game developers with direct access to Xbox One specs, that looks to be very accurate at this point. According to their data, there’s roughly 50GB/s of bandwidth in each direction to the SoC’s embedded SRAM (102GB/s total bandwidth). The combination of the two plus the CPU-GPU connection at 30GB/s is how Microsoft arrives at its 200GB/s bandwidth figure, although in reality that’s not how any of this works. If it’s used as a cache, the embedded SRAM should significantly cut down on GPU memory bandwidth requests which will give the GPU much more bandwidth than the 256-bit DDR3-2133 memory interface would otherwise imply. Depending on how the eSRAM is managed, it’s very possible that the Xbox One could have comparable effective memory bandwidth to the PlayStation 4. If the eSRAM isn’t managed as a cache however, this all gets much more complicated.
| Microsoft Xbox One vs. Sony PlayStation 4 Memory Subsystem Comparison | ||||||||||||||
| Xbox 360 | Xbox One | PlayStation 4 | ||||||||||||
| Embedded Memory | 10MB eDRAM | 32MB eSRAM | - | |||||||||||
| Embedded Memory Bandwidth | 32GB/s | 102GB/s | - | |||||||||||
| System Memory | 512MB 1400MHz GDDR3 | 8GB 2133MHz DDR3 | 8GB 5500MHz GDDR5 | |||||||||||
| System Memory Bus | 128-bits | 256-bits | 256-bits | |||||||||||
| System Memory Bandwidth | 22.4 GB/s | 68.3 GB/s | 176.0 GB/s | |||||||||||
There are merits to both approaches. Sony has the most present-day-GPU-centric approach to its memory subsystem: give the GPU a wide and fast GDDR5 interface and call it a day. It’s well understood and simple to manage. The downsides? High speed GDDR5 isn’t the most power efficient, and Sony is now married to a more costly memory technology for the life of the PlayStation 4.
Microsoft’s approach leaves some questions about implementation, and is potentially more complex to deal with depending on that implementation. Microsoft specifically called out its 8GB of memory as being “power friendly”, a nod to the lower power operation of DDR3-2133 compared to 5.5GHz GDDR5 used in the PS4. There are also cost benefits. DDR3 is presently cheaper than GDDR5 and that gap should remain over time (although 2133MHz DDR3 is by no means the cheapest available). The 32MB of embedded SRAM is costly, but SRAM scales well with smaller processes. Microsoft probably figures it can significantly cut down the die area of the eSRAM at 20nm and by 14/16nm it shouldn’t be a problem at all.
Even if Microsoft can’t deliver the same effective memory bandwidth as Sony, it also has fewer GPU execution resources - it’s entirely possible that the Xbox One’s memory bandwidth demands will be inherently lower to begin with.
Facebook
Twitter
RSS
245 Comments
View All Comments
Stuka87 - Wednesday, May 22, 2013 - link
I notice Anand says the XBox is 28nm. But everything I have been seeing says the XBox is 40nm, while the PS4 is 28nm.tipoo - Wednesday, May 22, 2013 - link
28 was confirmed. See the Engadget tech talk with Microsoft.tipoo - Wednesday, May 22, 2013 - link
5 billion transistors on 40nm would be something...dragonsqrrl - Wednesday, May 22, 2013 - link
Anand, on the 'Memory Subsystem' page, when you say..."less area efficient but lower latency and doesn't need refreshing"
Are you referring to eDRAM or eSRAM? I got a little confused there.
tipoo - Wednesday, May 22, 2013 - link
eSRAM. eDRAM needs refreshing.tipoo - Wednesday, May 22, 2013 - link
eDRAM also takes a third the size.jabber - Wednesday, May 22, 2013 - link
"The funny thing about game consoles is that it’s usually the lowest common denominator that determines the bulk of the experience across all platforms."This is the key point that Microsoft have realised. I bet the developers too told both MS and Sony not to bother going crazy as they will develop to the minimum standard.
This is not the age of the games console anymore. Its the age of the Media/Entertainment center.
When I got my 360 back in 2006 it was mainly used for games now seven years later and a whole lot of bandwidth upgrades and media explosion I now use it mainly for...well...media. Gaming takes very much a backseat on my 360. It s a very convenient media portal that happens to play games as well.
The world has moved on and I can imagine that gamers might feel left behind but there is a whole load more out there to occupy people time than there was in 2005. Microsoft has to capture that.
bengildenstein - Wednesday, May 22, 2013 - link
Interestingly, this seems to be a core strategy for the PS4 as well (as it was for the PS3) as mentioned in their unveil presentation.sfrocks - Wednesday, May 22, 2013 - link
Anand, in terms of the product positioning, I agree with your assessment, but I also think Microsoft would be better off by creating a disruptive (rather than sustaining) product. It'll be even better if they launched one in parallel with the Xbox One. It will surely cannibalize the sales, but that's the price for solving innovator's dilemma. Moreover, it's not Sony or Nintendo that MSFT should be very afraid of, rather Apple and Google. Apple will surely eneter the market from the low end of the value chain. More details here -- https://www.facebook.com/notes/itvale-the-blog/xbo... , would love to hear your thoughts.cjs150 - Wednesday, May 22, 2013 - link
Looking at the screen shot of the TV part of the software: at least we now know where the Windows media center team went.I am confused is this an HTPC with gaming facility attached or a games system with HTPC capabilities attached?