AMD QuadFX Platform and FX-70 Series Launched

MojoKid writes, "AMD officially launched their QuadFX platform and FX-70 series processors today, previously known as 4x4. FX-70 series processors will be sold in matched pairs at speeds of 2.6, 2.8, and 3GHz. These chips are currently supported by NVIDIA nForce 680a chipset-based, dual-socket motherboards, namely the Asus L1N64-SLI WS, which is currently the only model available. HotHardware took a fully configured AMD QuadFX system out for a spin and though performance was impressive, the fastest 3GHz quad-core FX-74 configuration couldn't catch Intel's Core 2 Extreme QX6700 quad-core chip in any of the benchmarks. The platform does show promise for the future, however, especially with AMD's Torenzza open socket initiative." And mikemuch writes that the QuadFX "not only fails to take the performance crown from Intel's quad-core Core 2 Extreme QX6700, but in the process burns almost twice as much electricity and runs significantly hotter in the process. ExtremeTech has a plethora of application and synthetic benchmarks on QuadFX, including gaming and media-encoding tests."

The race is on!

[Non-CleverNickName]

I wonder which will come first?

processors with 10 cores
or
razors with 10 blades

Re:Not long now

[Dunbal]

You need to run some intensive process to heat up enough for a bath or shower.

      Nahh, just boot Vista.

Re:Good name from a marketing perspective

[traindirector]

Sooo... when Intel had the hotter, more energy wasting, slower processor... it was "omg look how much Intel sux0rz" but now when AMD is in that boat its... "this is just a stopgap, you just wait!"

Intel spent years in that boat with no indication that they had an intention to 1) aim for low power consumption (they were happily gloating about the forthcoming Pentium 4 5GHz) or 2) do what it took to gain the performance crown. It was not clear (in recent history) that they had an eye on the super-performance desktop market until the announcement of the Extreme Edition and little indication of concern about power usage on the desktop until they announced that their new desktop processors would be based on the Pentium M.

On the other hand, we already know AMD's plans for next year, and we have statements of what they hope to achieve. I'm not saying just to wait and that it will be awesome. I'm posting on a Core 2 Duo system built using the remnants of my last Athlon XP system. My previous post indicated my expectations for what AMD is doing from a business perspective, not my feelings about the company or their product.

Re:AMD's new Power HOG

[fitten]

Intel's got a shared L2 that's 2-4 times the size of the AMD equivalents' pool.
AMD's got a coherent, but NON-shared L2 split across multiple CPUs- each core has it's own L2. You'll have less L2 thrash with that design.

Under an SMP load, the AMD design will have an edge if all four cores are busy in different parts of system memory.
If you pop out of cache, the memory bus design and overall architecture of the AMD parts will have an edge.

In CPU architecture circles, the shared L2 is considered a more ideal design than split L2 for multi-core processors. There are plenty of talks around the 'net as to why.

As far as cache size, that's a design tradeoff just like any other. Because of the slowness of main memory, you want to have as large a cache system as possible. However, cache system latency increases with the size of the cache so that is a tradeoff as well. Intel chose to use some chip realestate for cache. "Faulting" them for this is just being an apologist for your puppy.

There are many types of "SMP loads". Multi-threaded loads where all threads work on the same data will be similar on both as there is only one pipe to the memory on both the NUMA and the FSB model, for example. But yet, on SMP loads that are more 'lose', you can get good benefits from NUMA. By the way, Intel also has the IMC with their equivalent to HT on the roadmaps, so this discussion (NUMA vs FSB) won't be relevant for much longer.

Additionally, it isn't until AMD's 'next thing' where their NUMA architecture will be able to scale much better (it doesn't do that well with lots of sockets because it falls back to being limited by the number of HT connections so some communication has to be multi-jump with current multi-socket solutions - the new core adds an HT link so that 4+ sockets can have a more direct path around the system).

There are a number of examples of "popping out of cache" in the tests on various sites. AMD does show that it helps in those when it can use the bandwidth of both NUMA branches but it isn't convincingly better than Intel's FSB on many/any of the tests that are shown (you'd hope to see idealistically 2x performance improvement on many of those, but even with all the extra bandwidth, AMD doesn't seem to 'blow the doors' off of the Intel parts... in fact, AMD doesn't even beat them even with the added bandwidth... this just shows that there may be more to the picture than an IMC + more bandwidth). Even AMD's latency isn't that much better than Intel's FSB design anymore (the nice advantage that had against NetBurst is pretty much gone).

I'm eagerly awaiting AMD's next 'real' move, myself, but given that Intel is already sampling 45nm parts and even on 65nm Core is able to clock to 3.5GHz ranges (meaning Intel has a lot of headroom even on 65nm), the short amount of time that Intel and AMD will overlap on 65nm will probably just show equality (at best) between the two. I haven't really seen what performance advantages AMD's new features give, other than the obvious benefits of wider paths and the FPU issue increase (to bring it equal to Intel's issue rate, although AMD has typically had a stronger FPU). AMD claims a lot, but that could simply be marketing at this point.