Intel 3rd Gen Xeon Scalable (Ice Lake SP) Review: Generationally Big, Competitively Small
by Andrei Frumusanu on April 6, 2021 11:00 AM EST- Posted in
- Servers
- CPUs
- Intel
- Xeon
- Enterprise
- Xeon Scalable
- Ice Lake-SP
Power & Efficiency - 10nm Gains
Power efficiency in the server world infers performance, as the more efficient a CPU is, the more compute power is available in a given TDP. Ice Lake in this regard is extremely interesting given it’s Intel’s first 10nm server design, and in theory should represent a major leap forward for the new 3rd Gen Xeon line-up.
The comparison here is a bit rough this time around, as we’re dealing with a bit of a apples-and-oranges comparisons between the generational SKUs, particularly the 40-core 270W Xeon 8380 and the 28-core 205W Xeon 8280. Fortunately, we had also been sourced a Xeon 6330 from a third vendor, which is a 28-core 205W Ice Lake SP part, which should make generational comparisons a bit more interesting and fairer, although still not quite optimal as we’ll see.
Starting off with idle package power, this was something I had made note of in our coverage of AMD’s Milan CPUs a few weeks ago, where the new AMD chip had regressed in terms of apparent IOD power and eating through the power envelope of the socket resulting in some compute performance regressions.
It’s to be noted that we’re not exactly comparing apples-to-apples here, as AMD’s designs are full SoCs, while the Intel CPUs are merely just CPUs that require the usage of an external chipset (Lewisburg Refresh) which by itself uses about 18W, essentially moving that power requirement off-socket. Intel has multiple versions of the chipset on offer, based on Compression/Encryption offload requirements, up to 28.6 W.
Ice Lake Xeon Chipsets | ||||
AnandTech | SKU | Compression Encryption |
RSA | TDP |
C621A | LBG-1G | None | None | 18.0 W |
C627A | LBG-T | 65 Gbps / 100 Gbps | 100K OPS | 28.6 W |
C629A | LGB-C | 80 Gbps / 100 Gbps | None | 28.6 W |
Intel’s new Ice Lake SP system, similarly to the predecessor Cascade Lake SP system, appear to be very efficient at full system idle, reaching only around 27W per socket. It’s to be noted that these figures are only valid when both sockets are idle, if one socket is under load, the second socket’s power consumption will also grow in tandem even though it’s idle, we’ve seen idle figures up to 70W when the other socket is under full load, and even 90W when one socket is boosting frequencies very high. I suspect this is due to voltages and shared power delivery of the 2-socket system. Generally, it’s not of concern in the real world, but it’s just an interesting titbit to make note of.
The more interesting efficiency data is the actual power and energy consumption under load, and the corresponding performance between the generations. Again, we’re in a bit of a difficult situation here as the comparison isn’t as straightforward as the AMD Milan figures from a few weeks ago where we were comparing equal core-count and equal-TDP SKUs.
The new Xeon 8380 flagship Ice Lake SP CPU comes in at a default TDP of 270W, which is 65W higher than its direct predecessor, the 8280, and also features many more cores. Alongside the 270W default setting, I measured this part under a 205W limited power setting to add an extra data-point.
The Xeon 6330 seems a direct match to the Xeon 8280 (which in turn is identical to a Xeon 6258R), however this ICX part comes in at only $1894 versus the $3950 price point of the 6258R, a pricing that might be indicative of the quality of the silicon bin of this SKU, a point I’ll return to in just a bit.
Intel doesn’t make available core-only power metrics on its recent server chips, so we fall back to total package energy measurements only. I add in the total socket energy consumption for the duration of all workloads, as well as the performance and energy measurements on a per-thread basis as we’re dealing with different core-count designs here.
Ice Lake-SP vs Cascade Lake-SP Power & Energy Efficiency Estimates |
|||||||||||||
SKU | Xeon 8380 (Ice Lake-SP) |
Xeon 6330 (Ice Lake-SP) |
Xeon 8280 (Cascade Lake-SP) |
||||||||||
TDP Setting | 270W |
205W (RAPL Limit) |
205W | 205W |
|||||||||
Threads | 80 | 56 | |||||||||||
Perf |
PKG (W) |
Perf | PKG (W) |
Perf | PKG (W) |
Perf | PKG (W) |
||||||
500.perlbench_r | 190 | 268 | 165 | 204 | 123 | 204 | 119 | 204 | |||||
502.gcc_r | 167 | 266 | 152 | 204 | 121 | 204 | 105 | 203 | |||||
505.mcf_r | 117 | 263 | 112 | 204 | 92 | 205 | 71 | 201 | |||||
520.omnetpp_r | 99 | 264 | 94 | 204 | 71 | 204 | 69 | 204 | |||||
523.xalancbmk_r | 136 | 256 | 124 | 204 | 94 | 203 | 91 | 196 | |||||
525.x264_r | 362 | 268 | 309 | 204 | 226 | 204 | 242 | 204 | |||||
531.deepsjeng_r | 163 | 268 | 140 | 204 | 101 | 204 | 107 | 205 | |||||
541.leela_r | 166 | 268 | 146 | 204 | 101 | 205 | 107 | 204 | |||||
548.exchange2_r | 290 | 269 | 248 | 204 | 178 | 205 | 170 | 205 | |||||
557.xz_r | 120 | 264 | 105 | 204 | 79 | 204 | 86 | 204 | |||||
SPECint2017 est. | 167.6 | 265 | 149.1 | 204 | 111.5 | 204 | 108.4 | 203 | |||||
kJ Total | 1937 | 1662 | 1552 | 1612 | |||||||||
Score / W | 0.632 | 0.731 | 0.546 | 0.534 | |||||||||
Score per Thread | 2.09 | 1.86 | 1.99 | 1.94 | |||||||||
kJ per Thread | 24.21 | 20.78 | 27.72 | 28.78 | |||||||||
503.bwaves_r | 358 | 247 | 357 | 204 | 324 | 205 | 249 | 188 | |||||
507.cactuBSSN_r | 182 | 268 | 163 | 204 | 127 | 204 | 116 | 204 | |||||
508.namd_r | 194 | 268 | 164 | 204 | 122 | 204 | 127 | 205 | |||||
510.parest_r | 102 | 267 | 99 | 204 | 85 | 204 | 63 | 191 | |||||
511.povray_r | 242 | 269 | 203 | 203 | 157 | 204 | 152 | 205 | |||||
519.lbm_r | 38 | 236 | 38 | 204 | 34 | 199 | 26 | 173 | |||||
526.blender_r | 234 | 268 | 201 | 204 | 153 | 204 | 143 | 204 | |||||
527.cam4_r | 244 | 268 | 220 | 204 | 173 | 204 | 161 | 204 | |||||
538.imagick_r | 284 | 266 | 249 | 204 | 175 | 204 | 193 | 205 | |||||
544.nab_r | 177 | 269 | 151 | 204 | 109 | 204 | 109 | 205 | |||||
549.fotonik3d_r | 110 | 244 | 110 | 204 | 99 | 201 | 78 | 154 | |||||
554.roms_r | 78 | 261 | 78 | 204 | 68 | 205 | 50 | 173 | |||||
SPECfp2017 est. | 160.7 | 255 | 147.4 | 204 | 118.7 | 205 | 104.8 | 184 | |||||
kJ Total | 3877 | 3258 | 2714 | 2958 | |||||||||
Score / W | 0.631 | 0.722 | 0.546 | 0.570 | |||||||||
Score per Thread | 2.01 | 1.84 | 2.12 | 1.87 | |||||||||
kJ per Thread | 48.47 | 40.73 | 48.46 | 52.82 |
Starting off with the new flagship CPU, the Xeon 8380 indeed has little trouble to significantly outperform the Xeon 8280 by 54% in both integer and floating-point SPEC suites. This comes as no surprise as the new SKU is also using a higher TDP.
Reducing the Xeon 8380 to 205W, we’re looking at least at a performance comparison at a supposed ISO-power comparison point. Here, the Xeon 8380 again outperforms the 8280 by 40-43%. The actual measured perf/W falls in at +37% for the integer suite and +27% for the FP suite.
As per-thread performance is roughly similar between the two parts here, we can also do an energy per workload comparison, with the Ice Lake SP SKU using -27 to -23% less energy to complete the same task.
Looking at the Xeon 6330 at its default settings, the figures are quite less impressive. At +2.8 and +13.2%, the new design is posting rather lack-lustre performance boosts. The power efficiency and energy consumption figures are also extremely close to that of the 8280.
It’s to be noted, that Intel also has the Xeon 6348 in its line-up which is a 28C part as well, but with a 235W TDP. The results of the 6330 really aren’t too fantastic, even if it’s a weakly binned SKU that comes at a much cheaper price than its predecessor, meaning there’s a possible wide range in silicon quality between the new Ice Lake SKUs, indicating that a badly binned Ice Lake SKU isn’t notably better than a well binned Cascade Lake part.
169 Comments
View All Comments
Shorty_ - Thursday, April 8, 2021 - link
did you read the article before commenting?I'm inclined to believe him-- I think yields are still an issue (which is why they have so many dark cores) and that getting enough chips to meet demand on the 40 core parts will be tough.
Hifihedgehog - Saturday, April 17, 2021 - link
LOL Gondalf. Who pays $1000 for your thoughts?DannyH246 - Tuesday, April 6, 2021 - link
Another Intel marketing presentation from www.IntelTech.comLet me summarize - slower, hotter, pricier than the AMD equivalent. Zero reason to buy.
SarahKerrigan - Tuesday, April 6, 2021 - link
"As impressive as the new Xeon 8380 is from a generational and technical stand-point, what really matters at the end of the day is how it fares up to the competition. I’ll be blunt here; nobody really expected the new ICL-SP parts to beat AMD or the new Arm competition – and it didn’t."How is that "Intel marketing"?
ParalLOL - Tuesday, April 6, 2021 - link
In this case you did not even need to read the article to know what the tone would be. I guess Danny did not manage to read the title either.fallaha56 - Tuesday, April 6, 2021 - link
how? the chip isn't worth touching with bargepolethat's if the 38-40 core parts are actually available
which they won't be
and what sysadmin is going to go demand this when Milan is a drop in replacement and Intel next-gen is an entirely new platform
Azix - Tuesday, April 6, 2021 - link
Are you assuming they won't be because semiaccurate said so? They have 100% track record? Didn't he also say Rocket Lake S wouldn't clock high at all?yeeeeman - Tuesday, April 6, 2021 - link
this ain't intel marketing presentation. This is a laid back, relaxed, non-biased and professional review. Not everyone hates Intel with their whole heart and not every reviewer hunts for clicks, so as to say that the new Intel server chip are shit. In the grand scheme of things, sure, they are not competitive, BUT Intel still has a few advantages over AMD that for some customers it might matter more than absolute performance.In the server space, price, dependability, upgradeability, quality and support is the name of the game. AMD, as we know even from consumer products isn't that amazing when it comes to drivers, BIOS quality and fixing bugs, whereas Intel is much more reliable in this regard. Sure, sure, you might say I am a fanboy, but first check what I say and then call me that if you want. Nevertheless, Intel needs Sapphire Rapids badly because even with all their advantages, they will keep losing marketshare.
fallaha56 - Tuesday, April 6, 2021 - link
absolute nonsense from a fanboi yesIntel is currently slower, buggier and overpriced with horrific security issues meaning you can have: slow and insecure or even slower and barely secure
and who ever thought servers would regularly need watercooling
also what on Earth are you talking about upgrades? this entire platform is getting chucked shortly while AMD has offered multiple generations on the same platform for years with an upgrade bringing DDR5 and PCIe 5
fallaha56 - Tuesday, April 6, 2021 - link
wonderfully summed up here:https://semiaccurate.com/2021/04/06/intels-ice-lak...