Revisiting the Memory Wall

By Michael Feldman

February 19, 2009

As the first Intel Nehalem EP server chips get ready for their debut, HPC users in particular are anxious to get a taste of Intel’s new high performance design. The new architecture incorporates the QuickPath Interconnect (QPI) and integrated memory controllers, a setup which should be especially kind to memory-intensive applications.

As I’ve discussed before, the “memory wall” has become one of the most worrisome issues in HPC. Over the last two decades, memory performance has been steadily losing ground to CPU performance. From the 1986 to 2000, CPU speed improved at an annual rate of 55 percent, while memory speed only improved at 10 percent. As clock speeds stalled, chipmakers resorted to multiple cores, but if anything, that only caused the CPU-memory performance gap to widen. A recent study by Sandia pointed to the futility of just throwing more cores at the problem.

The Nehalem processors, though, should provide some relief — if temporarily. The soon-to-be-released quad-core EP chips for two-socket servers will have integrated DDR3 memory controllers, which Intel claims will bump memory bandwidth by 300-400 percent compared to the current “Penryn” class Xeon processors. Exact performance has not been verified, but the new DDR3 controllers should yield memory bandwidth in the range of 32-35 GB/second per socket. That should be a big lift for many memory-bound applications.

Unfortunately, after Nehalem, Intel probably won’t be able to duplicate another memory performance increase of similar magnitude for some time. DDR4 will have perhaps twice the raw performance of DDR3, but is not expected to show up until 2012. More exotic memory architectures are on the drawing boards, but no manufacturers have committed to a roadmap.

GPUs are a different story though. These chips are all about data parallelism, so the memory architecture was designed for parallel throughput from the get-go. For GPGPU computing platforms like NVIDIA Tesla and AMD FireStream, the hardware comes with a hefty amount of very fast memory so that large chunks of computations can take place locally, without having to continually tap into system memory.

Today, you can get an NVIDIA Tesla GPU with 4 GB of (GDDR3) memory at 102 GB/second of bandwidth. Granted this is graphics memory, so you have to deal with the lack of error correction, but at roughly three times the memory performance available to a Nehalem processor, GPUs can offer some respite from the memory wall. The more favorable GPU-memory performance balance is one reason why users have been able to speed up their data parallel apps by one or two orders of magnitude.

And yet the entry of Nehalem into the HPC server market is bound to be the big story this year. Despite the meteoric rise of GPUs in the general-purpose computing world over the last couple of years, most HPC users are still using x86-based clusters. According to IDC, less than 10 percent of the HPC user sites they surveyed were using alternative processors (most of which, I assume, were GPUs and Cell processors), and they didn’t see those numbers changing dramatically in the near term.

But the memory wall will be unrelenting. The eight-core Nehalem EX chip is in the works and is expected to show up in the second half of 2009. At eight cores, memory-intensive apps might be a poor fit for this platform. It was at the eight-core mark that the Sandia study saw an actual decrease in performance. There’s plenty of anecdotal evidence that a variety of HPC applications are seeing declining application performance as they migrate from just two to four cores.

On top of that, considering the onerous software licensing model for multicore processors used by many ISVs and the well-known difficulties of multi-threaded software development, multicore CPUs may not be the path to HPC nirvana after all. Thinking optimistically, though, it’s quite possible we’ll find a path around the memory wall and all the other parallel computing roadblocks. But the solution is likely to come about by looking at the problem in an unconventional way.

As IT publisher Tim O’Reilly recently wrote: “The future isn’t going to be like the past. What’s more, it isn’t going to be like any future we imagine. How wonderful that is, if only we are prepared to accept it.”

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