Category Archives: Other

I Built a PC for Validation

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I organized a PC for validation. I already have a PC, but it isn’t suitable for validation because it has the hard line loop which is very hard to exchange any PC parts. So, I had hope to construct an environment to validate some PC parts exclusively. A PC for validation is required easy exchangeability of parts and simplicity of composition.

And now, I want to validate the Ryzen 9 5950X I purchase a few days ago (https://ocod.home.blog/2020/11/09/ive-got-something-amazing/). The specs of this PC for exam my 5950X is below.

  • CPU: [AMD] Ryzen 9 5950X
  • Memory: [G.Skill] F4-3600C14Q -32GTZN (use only 2 modules)
  • M/B: [ASUS] ROG Crosshair VIII Hero (Wi-fi)
  • GPU: [MSI] Geforce GT1030 2G LP OC
  • SSD: [Plextor] PX-1TM8VC+
  • PSU:[CoolerMaster] V1200 Platinum
  • Cooler: [EVGA] CLC 360 Liquid CPU Cooler
  • Case: [Streacom] BC1 Open Bench Table
  • Thermal paste: [Shinwa Sangyo] OC Master SMZ-01R

I overclocked CPU and memories easily in this environment, and try some benchmark tests, to validate performance and durability. In conclusion, there are nice durability, but scope for improvement about performance. I’ll tuning this environment continuously, and try to achieve high performance without losing durability for daily-use.

I’ve Got Something Amazing

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I lined up early morinig in Akihabara, and purchased Ryzen 9 5950X.

I’ve already builded the hard loop PC with the Ryzen 9 3950X, so for the time being, I plan to use this processor for verification.

But I don’t have enough parts for building a PC, so I should wait to use this processor. I’m sad. Having said that, I’m looking forward to exam Ryzen 9 5950X, because I heard that zen3 processor can achieve higher Infinity Fabric clock than zen2 though it mounts same I/O die in terms of processing rule.

早朝から秋葉原で並んで,Ryzen 9 5950Xを購入しました.

私は既にRyzen9 3950Xを組み入れた本格水冷PCを作成しているので,当面はこのプロセッサを検証用として使用する予定です.

しかし,パソコンを作るのに十分な部品がないためしばらくこのプロセッサを使うことができず,悲しいです.とはいえ,zen3プロセッサはzen2と同じプロセスルールI/Oダイを搭載しているにもかかわらず,zen2よりも高いInfinity Fabricクロックを達成できると聞いているため,Ryzen 9 5950Xの検証を楽しみにしています.

The lot number is “2037 SUS.” This means that the location this processor was integrated was China (= SU) and the location the I/O die was manufactured was Saratoga (= S). About the former, there is other one from Malaysia (= PG), and about the latter, there is other one from Texas (= T). In other words, there are four types of processor production areas: SUT / SUS / PGT / PGS.

ロット番号は「2037 SUS」でした.これは,このプロセッサの統合地が中国 (=SU),I/Oダイの製造地がサラトガ (=S)であることを意味するそうです.前者については,他にマレーシア産 (=PG),後者については,他にテキサス産 (=T)があります.つまり,プロセッサの生産地についてはSUT/SUS/PGT/PGSの4種類が存在することになります.

Purchasing the Supreme Dual Rank DDR4 for Zen2 (at This Time)

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I purchased DRAMs from G.Skill, F4-3600C16D-32GTZN. I already have F4-3600C14Q-32GTZN, but these are single rank memories. I want to compare four single rank memories and two dual rank memories, at same memory capacity, same memory frequency (and near timings). And, in the QVL of ASUS Crosshair VIII Hero (Wi-fi) which I adopt my PC, there are F4-3600C16D-32GTZN (at two DRAMs), so I can run them at eaI purchased DRAMs from G.Skill, F4-3600C16D-32GTZN. I already have F4-3600C14Q-32GTZN, but these are single rank memories. I want to compare four single rank memories and two dual rank memories, at same memory capacity, same memory frequency (and near timings). And, in the QVL of ASUS Crosshair VIII Hero (Wi-fi) which I adopt in my PC, there are F4-3600C16D-32GTZN (at two DRAMs), so I can operate them at ease relatively. F4-3600C16D-32GTZN equip Samsung B-dies, and these can run at the lowest timings (16-16-16-36) as dual rank memory at 3600 MHz. I’m looking forward to tuning them because the XMP can run at 1.35 V, so there is margin till the limit of voltage of Samsung B-die.

G.SkillのDRAM,F4-3600C16D-32GTZNを購入しました.私は既にF4-3600C14Q-32GTZNを持っていますが,これらはシングルランクのメモリです.私は,同じメモリ容量,同じメモリ周波数(,および近似したタイミング) で,4枚のシングルランクメモリと2枚のデュアルランクメモリを比較したいと考えています.また,私のPCに採用しているASUS Crosshair VIII Hero(Wi-fi)のQVLには,F4-3600C16D-32GTZN(DRAM2個分)が載っており,比較的安心して操作できます.F4-3600C16D-32GTZNはSamsung Bダイを用いており,これらは3600 MHzのデュアルランクメモリとしては最低のタイミング(16-16-16-36)で稼働できます.このXMPは1.35 Vで動作し,Samsung B-dieの電圧の限界まで猶予があるので,それらを調整することを楽しみにしています.

I got a X570 Motherboard

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I purchased a X570 motherboard, ASUS ROG Crosshair VIII HERO (Wi-Fi).

I had wanted to get a X570 motherboard for a long time since I used the Ryzen 3000 series. I already had the X470 motherboard, and X470 motherboards doesn’t fully support Ryzen 3000 series. In my case, I didn’t get any problems about overclocking cores, but I’ve felt a limit to memory tuning. Looking at QVLs on each manufacturer’s website, it can be seen that X570 motherboards support officially higher speed DRAMs than X470 motherboards.

There are many nice X570 motherboards among middle-high to high-end crass. The reason which I chose ASUS ROG Crosshair VIII Hero (Wi-Fi) is that it supports DRAMs which have more tight XMP. As far as I see QVLs, ASUS and MSI release high-end X570 motherboards which can manage DRAMs with higher frequency. In particular, MSI’s high-end motherboards (MEG X570 Godlike, PRESTIGE X570 Creation, etc.) are famous for to support 5000 MHz DRAMs officially. However, since I plan to use 32GB of memory capacity (using four 8GB DRAMs) in the future, I focused on to support of four DRAMs. In addition, ASUS ROG Crosshair VIII Hero (Wi-fi) was very attractive because of supporting F4-3600C14Q-32GTZN which I already have.

Now I am using it in a trial state without making extreme adjustments, and it works without any problems. From now on, I would like to try to various verifications with this motherboard.

私はX570マザーボード,ASUS ROG Crosshair VIII HERO(Wi-Fi)を購入しました.

Ryzen 3000シリーズを使用して以来,私はずっとX570マザーボードを入手したかったのです.私は既にX470マザーボードを使用していますが,X470マザーボードはRyzen 3000シリーズを完全にはサポートしていません.私の場合,コアのオーバークロックについて問題はありませんでしたが,メモリのチューニングには限界を感じていました.各メーカーのWebサイトでQVLを見ると,X570マザーボードはX470マザーボードよりも高速なDRAMを公式にサポートしていることがわかります.

ミドルハイからハイエンドのクラスには,多くの素晴らしいX570マザーボードがあります。.ASUS ROG Crosshair VIII Hero(Wi-Fi)を選んだ理由は,よりタイトなXMPを備えたDRAMをサポートしているためです. QVLを見る限り,ASUSとMSIはより高いクロックでDRAMを運用できるハイエンドのX570マザーボードをリリースしています。特にMSIのハイエンドマザーボード(MEG X570 GodlikeやPRESTIGE X570 Creationなど)は,5000 MHzのDRAMを公式にサポートしていることで有名です.しかし,私は将来は32GBのメモリ容量(4枚の8GBのDRAMを使用)を使用する予定なので,4枚のDRAMのサポートを重視しました.また,ASUS ROG Crosshair VIII Hero(Wi-fi)は,私が既に持っているF4-3600C14Q-32GTZNをサポートしているため,非常に魅力的でした.

今,私は極端な調整を行わずに試用状態で使用していますが問題なく動作しています.これからはこのマザーボードで様々な検証を行っていこうと思います.

Purchasing the Supreme DDR4 for Zen2 (at This Time)

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I purchased a DRAM from G.Skill, F4-3600C14Q-32GTZN. This equips Samsung B-dies, and which has the lowest timings (14-15-15-35) in the range of 3600 MHz, at 1.4 V. G.Skill has also released the DRAM, F4-3800C14Q-32GTZN, which have a lower actual latency. But it requires 1.5 V, thus there are little potential. So I think that F4-3600C14Q-32GTZN is the best memory for Zen2 at this time.

私はG.SkillのDRAM,F4-3600C14Q-32GTZNを購入しました.これにはSamsung B-dieが用いられており,3600 MHz帯で最小のタイミング(14-15-15-35)を1.4 Vで達成できます.G.Skillはより低い実レイテンシを誇るF4-3800C14Q-32GTZNもリリースしていますが,これは1.5 Vが必要になり,伸びしろがあまりありません.したがって,私はF4-3600C14Q-32GTZNが現状Zen2にとって最高のメモリであると考えています.

Postscript (at December 16, 2019)

Using the previous article ,”How to do Stable DDR4 Tuning on Ryzen,” as a reference, I tuned two DIMMs for stable overclocking at 1900 MHz. Please see the results from “Benchmarks.”

以前の記事「How to do Stable DDR4 Tuning on Ryzen」を参考にして,私は2枚のDIMMを1900MHzで,安定したオーバークロックのためにチューニングを行いました.結果は「Benchmarks」からご覧ください.