Intel's Pentium M on the Desktop - A Viable Alternative?
by Anand Lal Shimpi on February 7, 2005 4:00 PM EST- Posted in
- CPUs
Floating Point Performance
Just about a year ago, our own Johan De Gelas made an extremely interesting point about one of the weaknesses of the Pentium M - floating point performance. The theory is this - the Pentium 4, Athlon 64 and Pentium M all have very different platforms, with equally different characteristics. Unfortunately, as we've already shown, the Pentium M is quite possibly the worst off with only a single channel 333MHz DDR memory bus. It's also widely known that most floating point intensive applications are highly memory bandwidth limited, meaning that the Pentium M already has an excuse for poor floating point performance - it doesn't have enough memory bandwidth.But what if we are able to take memory bandwidth out of the equation? This is where a little benchmark called "flops" comes into play. The beauty of flops is that it executes entirely within the L1 cache of the Pentium M, meaning that the benchmark is limited by two things: the performance of the Pentium M's L1 cache, and more importantly, the performance of the Pentium M's floating point and SSE units.
The actual tests that flops runs are a mixture of floating point add, subtract, multiply and divide operations. The mix of ADD/SUB, MUL and DIV operations is listed next to each test in the table below.
We compiled flops using the latest Intel C compilers to give the Pentium M as solid of a foundation as possible using the /O3 and architecture specific flags under Visual Studio .NET. All of the results are expressed in MFLOPs, higher scores being better:
| Test (% ADD, SUB, MUL, DIV) | AMD Athlon 64 3200+ (2.0GHz) | AMD Athlon 64 FX-55 (2.6GHz) | Intel Pentium 4 3.2GHz | Intel Pentium M 755 (2.0GHz) |
| 1 (50,0,43,7) | 1576 | 2057 | 1274 | 899 |
| 2 (43,29,14,14) | 856 | 1118 | 790 | 492 |
| 3 (35,12,53,0) | 1388 | 1802 | 2476 | 1470 |
| 4 (47,0,53,0) | 1244 | 1622 | 2792 | 1601 |
| 5 (45,0,52,3) | 1477 | 1923 | 2351 | 1019 |
| 6 (45,0,55,0) | 1466 | 1908 | 2762 | 1607 |
| 7 (25,25,25,25) | 458 | 595 | 365 | 252 |
| 8 (43,0,57,0) | 1585 | 2065 | 2566 | 1572 |
| Average | 1256 | 1636 | 1922 | 1114 |
The first comparison to look at is the Athlon 64 3000+ vs the Pentium M 755, since both CPUs run at the same clock speed. Despite the Pentium M's improvements to enhance IPC, the Athlon 64 is still able to outperform it at a core level (without the aid of its memory controller) by almost 13%. But here's where the next Athlon 64 score comes into play - while the Pentium M will hit 2.26GHz by the end of this year, the Athlon 64 will be at or above 3.0GHz. So, the headroom of the Athlon 64's architecture gives it a huge performance advantage here in flops as you can see by the Athlon 64 FX-55 results (remember that the larger L2 cache of the FX-55 has no effect on the flops results as the program runs entirely out of L1).
Next, we have one of the slower Pentium 4s vs. the Pentium M 755. Why not compare to a 3.6GHz or the new 3.8GHz Pentium 4? Well, look at how much the Pentium 4 3.2GHz outperforms the Pentium M 755 - 72% using Intel's 8.1 C++ compiler. When running optimized SSE2/3 code, the Pentium 4 is a much stronger FP performer than what the Pentium M ever could be, which is very important for the following reason: the future of desktop applications is in very floating-point intensive media transcoding tasks, and for those applications, the Pentium M just won't cut it. So, to those who feel that Intel will soon ditch Net Burst in favor of the Pentium M's architecture, the results speak for themselves. While elements of the Pentium M architecture will undoubtedly make an appearance in the Pentium 4's successor, its dated P6 execution core will not.
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Jeff7181 - Monday, February 7, 2005 - link
Give the Dothan a speed bump and some dual channel DDR400 and stay out of it's way...MDme - Monday, February 7, 2005 - link
well, now we FINALLY have a comprehensive review of the P-M, it's strengths and weaknesses. While the P-M is good. the A64 is still better.Netopia - Monday, February 7, 2005 - link
Yeah, I was about to say the same as #3.Why did you go to the trouble to list what the AthlonXP system would have in it and then not actually test or reference it anywhere in the article?
I still have a bunch of AXP machines and regularly help others upgrade using XP-M's, so it would be interesting to see these at least included in reviews for a while.
CrystalBay - Monday, February 7, 2005 - link
Hi, I noticed in the testbed an AXP3200/NF2U400 but there are no charts with this setup.Beenthere - Monday, February 7, 2005 - link
It's a pipe dream for those who wish Intel had their act together. It's already confirmed M don't scale well and is not effective for HD computing. It's performance is really some place between Sempron and A64 but certainly not a suitable competitor to A64 nor FX. Just another Hail Mary for a defunct Intel.coldpower27 - Monday, February 7, 2005 - link
Hmm, an interesting review on the Pentium M to say the least. Though are 2-2-2-10 timings for the Pentium M the best for this architecture???0ldman79 - Wednesday, January 26, 2022 - link
It's interesting coming back and reading this after it's all settled, Core 2 seemed to be an evolution of the Pentium M line.Intel did hang the Netburst architecture up, though they added a lot of Netburst's integer design to Core 2 while designing Nehalem. AMD apparently believed that Intel was going to stick with Netburst and designed the FX line, while Intel went back to their earlier designs and lowered the clock speed, massively increased the IPC and parallelism and out-Phenom'ed the Phenom with Nehalem.
Back then Intel believed that Dennard scaling would continue and they'd have 10GHz chips, turns out wider and slower is better.