The Microsoft Surface Laptop 3 Showdown: AMD's Ryzen Picasso vs. Intel's Ice Lake
by Brett Howse & Andrei Frumusanu on December 13, 2019 8:30 AM ESTBenchmark Analysis: Boost Behavior
Let’s dig into some of the testing to see how the systems responded during the benchmarks. We re-ran several of the tests while simultaneously monitoring the processor frequency, temperature, and power. Unfortunately for our comparison, the power polling results provided by our monitoring tools don’t seem to monitor the same power draw. The Intel power numbers are for the SoC package, but the AMD power numbers appear to be just the CPU cores, which is an unfortunate byproduct of testing two different platforms.
PCMark 10
PCMark 10 is a benchmark platform that attempts to simulate real-world tasks by running a variety of workflow, and the results were perhaps the most interesting of any of the benchmarks. There is a major discrepancy in how the AMD CPU behaved compared to the Intel. The Ice Lake platform kept the CPU frequency at a minimum of 3.5 GHz, with bursts to 3.9 GHz when under load. The Picasso processor was very aggressively switching from low frequency to high frequency, and was rarely indicating that it was over 3.0 GHz, but clearly demonstrating its higher peak frequency of 4.0 GHz in several locations. Both systems were fairly even in terms of CPU temperature, and Intel’s aggressive turbo levels were evident with peak power levels of 40 Watts for brief moments. The Ice Lake platform finished the benchmark about 200 seconds quicker than the Picasso system.
Cinebench R20 Single-Thread
We see somewhat similar results when only a single CPU core is loaded with the Picasso CPU frequency varying quite a bit. There’s also an average higher temperature on the AMD platform during this workload, and once again Ice Lake finishes the rendering quite a bit sooner thanks to its stronger CPU cores.
Cinebench R20 Multi-Thread
With all cores loaded the graph is considerably altered. Here the AMD processor is able to maintain a much higher frequency across its cores for much longer, while Intel's chip is only able to maintain 3.5 GHz for about 30 seconds before it runs out of headroom, dropping the cores down to around 2.6 GHz. But despite the lower frequency, the much higher IPC on Sunny Cove allows the Ice Lake platform to finish quite a bit sooner.
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kgardas - Friday, December 13, 2019 - link
Thanks for the great article! Intel surprised me a bit since this Ice Lake wonder looks like Zen2 or even better. Now, the only question is when we can get Ice Lake cores in Xeon E/W form?UglyFrank - Friday, December 13, 2019 - link
Coffee Lake & Zen+ were very close in IPC terms & Ice Lake & Zen 2 both had similar IPC increases from their predecessorsphilehidiot - Sunday, December 15, 2019 - link
We all knew what the CPU result was going to be, and really this is a great foot in the door for AMD for when they have a competitive mobile product. Given the relentless execution after execution, I'm hopeful for something good here. I suspect they've left laptops until last as that's where a lot of Intel's dirty tactics are in play and will be the hardest market to crack. Working with MS will undoubtedly give AMD some ideas of where they can optimise for Windows on their end and also get MS to optimise on theirs. Given that AMD are actually competitive now, I suspect Microsoft are more interested in dealing with them.The surprise for me was the GPU leap from Intel. I was expecting AMD's GPU option to be far better and Intel's to just be the usual perfunctory stuff, good only for multimedia and maybe Minecraft. That.... could be a sign of things to come, methinks.
Lolimaster - Monday, December 16, 2019 - link
Vega11 is the same as the Ryzen 2400G. Zen2+ mobile will be a major upshift.philehidiot - Tuesday, December 17, 2019 - link
I really hope you're right. It's great to finally see competition. I am actually considering upgrading my main PC for the first time in years. What I don't want is Intel abusing its market position to cane AMD in the GPU market with an inferior product.YB1064 - Tuesday, December 17, 2019 - link
I did not expect such a big improvement in IPC from Intel either. Looks like they were holding back. A desktop equivalent is going to snatch the CPU crown back from AMD. I just hope the platform price is not insane.cheshirster - Wednesday, December 18, 2019 - link
Problem is that 10nm can't hit high enough clocks.They are now backporting it to 14nm, and the result will have a questionable ... everithing other than performance in games.
eva02langley - Friday, December 13, 2019 - link
Really interesting. It just proves that AMD needs to upper their game in laptops, still it is jsut telling me that I should wait for Zen 2 mobile at this point.At least, i know what I will buy in the future.
Targon - Friday, December 13, 2019 - link
7nm AMD laptop chips are expected to show up in January at CES, potentially even shipping at that point. With the 15% IPC boost, that will help a lot. If Zen3 brings another 15% IPC boost(something that has been rumored), then in January 2021 we might see AMD beating Intel in the laptop space(since Intel doesn't improve IPC all that often).RSAUser - Friday, December 13, 2019 - link
I think it will probably be higher once Zen3 ships as node will either have had a process improvement or shrunk to 5nm.Current AMD mobile is pretty bad, hope they get competitive and bring laptop prices down.