I’ve saved the worst news about FB-DIMM until last. The communication path through the AMB controllers is longer than conventional DDR2 so the latency sucks horribly.
When we reviewed the Patriot PVS32G1866LLK DDR3-1866 the latency varied from 58ns to 76ns depending on the clock speed. By contrast FB-DIMM runs over 100ns which is terrible news for the desktop where we have no intention of installing 8GB of memory or more, so the benefits of FB-DIMM are near non-existent.
The situation changed in February of this year when Intel launched its Skulltrail platform which uses its D5400XS motherboard to support dual LGA771 processors with a choice of CrossFire or SLI graphics. The choice of FB-DIMM memory for Skulltrail makes sense if you think of it as some sort of super-duper workstation as it supports up to 16GB of 800/667MHz 240-pin DDR2 FB-DIMM memory. Unfortunately FB-DIMM ruins the performance of Skulltrail for gamers and pretty much negates the value of the second quad-core processor.
Skulltrail felt as though it should have colossal performance but instead it turned out to be a curiosity with eight CPU cores and four graphics slots. It lacked the necessary oomph to justify the fanfare that accompanied its launch and I was pointing the finger at the FB-DIMM memory as Intel sent the Skulltrail kit with two 2GB Micron PC2-6400/800MHz modules of FB-DIMM, which only occupied two of the four memory slots on the D5400XS. This seemed like the worst possible way to use FB-DIMM so we leapt at the opportunity to test two Kingston KVR800 kits. That’s a total of 4GB of memory in four modules so we’re talking about the same amount of memory at the same 800MHz speed.
After the world’s longest introduction we now have the world’s briefest review.
Taking the 2x2GB Micron set-up as a baseline the Skulltrail delivers very similar performance to an Asus Rampage, which uses Intel’s more conventional X48 enthusiast chipset, and a single Core 2 Extreme QX9770 running at 3.8GHz. When you consider that our overclocked Skulltrail has two quad-cores running at 4.0GHz it’s impressive that the Rampage performed so admirably.
Switching to 2x1GB of the Kingston FB-DIMM took a tiny amount off the performance but it was the sort of change that only shows up in benchmarks. You won’t notice the difference between 2x2GB and 2x1GB in day-to-day usage but if you’re only using your Skulltrail PC to shop at Amazon there’s something fundamentally amiss.
Stepping up to 4x1GB of Kingston memory had a major impact in memory performance. Bandwidth increased by 11.5 percent bandwidth in Sandra which amounted to a 13 percent improvement in the Memory element of the PCMark05. That’s a huge return for simply swapping from two modules to four and it’s the reverse of what we expect from DDR2 memory as performance usually suffers when you increase the number of modules.
Changing from 2x2GB to 4x1GB has no effect on graphics performance and neither does it affect pure CPU performance in tests such as POV-Ray. Instead it gives you headroom when you’re hammering your gaming PC/workstation with colossal maps in your favourite game.
You’re paying a £20 premium for a 2GB kit of FB-DIMM over regular PC2-6400 but that’s a drop in the ocean on this sort of system. Buying 4x1GB of the Kingston at £127 is the simple choice but I’d be more inclined to install 4x2GB of the same Kingston KVR800 for £299 and really give 64-bit Vista the chance to fly.
Intel’s decision to use FB-DIMM memory on Skulltrail shows that it is intended to be a workstation rather than a gaming platform. It’s clear that the smart move is to populate all four slots with FB-DIMM memory but we’ll be far happier when Intel delivers Skulltrail 2 with DDR3 memory.
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