CORSAIR VENGEANCE DDR5 32GB 6000MHz C36 Memory Kit Review

David_Schroth

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Introduction With AMD about to launch its next-generation platform, supporting DDR5, and Intel already supporting DDR5 now on its 12th Gen Alder Lake platform, there is no better time than to look into DDR5 memory. Prices are coming down fast, and speeds are going up. Today we’re taking a look at CORSAIR’s VENGEANCE 32GB (2x16GB) […]

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I read through this review and thank you for it. One thing really stood out. Other than in one AIDA (is that right?) test the difference between 4800 and 6000 speed memory was.... meh... at best. I mean for the extra few bucks go for it... but if you had the 'slower' memory now... I wouldn't be running to Microcenter to get the newer faster any time soon.
 
I read through this review and thank you for it. One thing really stood out. Other than in one AIDA (is that right?) test the difference between 4800 and 6000 speed memory was.... meh... at best. I mean for the extra few bucks go for it... but if you had the 'slower' memory now... I wouldn't be running to Microcenter to get the newer faster any time soon.

So, on one hand, the suite of benchmarks that I ran were similar to what we do for Motherboard and CPU reviews, and very few of the tests were 100% focused on strictly memory performance. Perhaps it would be better to cut some of those out knowing that they are strictly CPU bound tests, however, it also gives context as to where the different memory speeds can make a difference.

I'd also consider that this is strictly looking at performance on an Alder Lake platform. We could see more substantial differences emerge with both Zen 4 and Intel 13xxx chips.

End of the day, the faster memory does help when you're looking at high FPS games (that are not GPU bound, such as the 1080p games or not graphically demanding games at higher resolutions). Looking to future generation cards, we may start seeing bottlenecks at higher resolutions as well, so this could come into play at 1440p or 4k at some point. For those that want the 360Hz refresh rate/response time, the memory choice absolutely matters.

For the most part, the performance numbers should be comparable to the Viper 6200 review that I did - same rig, same benchmarks (well, Blender is a different major rev and used Cinebench R23, and perhaps updated PC Mark), but even there where there should not be a substantial difference, there is - which could be related to the subtimings in the SPD/XMP memories that nobody digs to examine (I know I didn't on this pass). Maybe I'll tinker more on this at some point....
 
I read through this review and thank you for it. One thing really stood out. Other than in one AIDA (is that right?) test the difference between 4800 and 6000 speed memory was.... meh... at best. I mean for the extra few bucks go for it... but if you had the 'slower' memory now... I wouldn't be running to Microcenter to get the newer faster any time soon.
Upgrading to faster DDR5 from slower DDR5 doesn't make too much sense right now, at least not with Alder Lake as David mentions above. The basic reality is that DDR5 is both higher bandwidth than DDR4, and after the 'first word' that CAS latency affects, actually similar or lower in latency. This is due to having each physical channel split into two 32-bit channels, and due to just having higher bandwidth to begin with. The expected latency penalty just isn't there unless you're comparing the fastest DDR4, on a motherboard and with a CPU that can actually run it, against the slowest DDR5.

Where buying faster DDR5 makes more sense is less in terms of whatever XMP rating a certain kit is gifted, and more in terms of avoiding this first round of Micron ICs. These are apparently capped at 5400MT/s, whereas the Samsung ICs can go north of 6000MT/s easily, and the Hynix M-die and A-die have been pushed north of 7000MT/s and 8000MT/s, respectively, and easily hit low to mid 6000MT/s speeds on most boards.

Also, a word on timings. I absolutely understand why David didn't try to editorialize this rabbit hole, because it's a right mess, and few will want to put in the effort required to eek more performance out. What I can say is, there's still quite a bit of memory performance, that is increased bandwidth and lowered latency, to be gained by tightening timings. And when I say 'effort', understand that there are several dozen timings that take integer values and range from say 4 to 200, or say 8000 to 250000. Then there are at least a half-dozen voltages related to the memory controller on the CPU as well as the memory itself that need to be dialed in to a sweet spot, meaning that at any particular combination of timings and clockspeed, these voltages may need to be adjusted up or down.

The current picture we have of DDR5 is that it's basically black magic. About the only sweeping thing I can say is that most folks should be able to pick up a kit rated for 6000MT/s using XMP / EXPO, and be able to just run that without issue on an Alder Lake system. From what has been publicly released about AMDs Zen 4 on AM5, the same should apply. Last, it looks like Raptor Lake (Intel 13th-gen) will work a bit better and could see higher memory speeds and lower latencies.
 
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