為什麼這篇ddr5時序鄉民發文收入到精華區:因為在ddr5時序這個討論話題中,有許多相關的文章在討論,這篇最有參考價值!作者FighterVin (Min)看板PC_Shopping標題[開箱] Crucial Pro ...
先上人權,此文章無任何商業宣傳
隔幾週會有大量此套條推廣文章出現
用愛發電,請安心食用
https://i.imgur.com/RnEQpbe.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/RnEQpbel.jpg?e=1721955303&s=QOo_DtsHJXnE8PlrxqmzVw)
偽開箱
首先從外包裝開始先看起
https://i.imgur.com/uRPCBwN.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/uRPCBwNl.jpg?e=1721921937&s=bH6fsPPhbSeuQjLO6D-vqw)
放一張與 Crucial Ballixtix 外包裝對比
https://i.imgur.com/95blaor.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/95blaorl.jpg?e=1721897354&s=wWV5qkvyv_klPiTND1HyEQ)
一次性包裝,滿滿的降級感
雖然能夠小心的拆
一旦拆到面目全非.....基本就垃圾桶見
接下來看產品
側面處有品牌LOGO
另一側有產品資訊
https://i.imgur.com/aJ5sfAC.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/aJ5sfACl.jpg?e=1721953459&s=wcY_g5D0uZfB6zzjJvw6ew)
上方有Crucial DDR5 Pro,觀察的知為單面顆粒
https://i.imgur.com/l7OlHTW.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/l7OlHTWl.jpg?e=1721903179&s=6nLQoY-yqjwMmVCivbCQuA)
不專業測量 包含金手指高度 約在33mm
https://i.imgur.com/zLFyoQp.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/zLFyoQpl.jpg?e=1721915873&s=gdxax-WjNe1zhDV6kQVtwA)
整體外觀依舊非常簡約
拆解皆在測試後執行
從上方 Crucail DDR5 Pro字處入手,可以像吃螃蟹一樣扳開
可以看到Dram顆粒部分含背膠導熱墊覆蓋的
https://i.imgur.com/3JxZ8Ab.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/3JxZ8Abl.jpg?e=1721950570&s=N95SN6CzBpYLmhnHX3HAFw)
PMIC導熱墊也有照顧到
Dram 顆粒導熱墊背膠被我拆廢,一半在顆粒上,另一半爛爛的在導熱墊上
刮刮樂方式確定馬甲為金屬材質
https://i.imgur.com/g4T0MOD.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/g4T0MODl.jpg?e=1721951145&s=kvx3b3JiP11e-8JpXJzAcA)
https://i.imgur.com/Lseckdr.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/Lseckdrl.jpg?e=1721937328&s=HgVa2LXJ1YCedMFUu-97zQ)
PMIC 絲印型號:
MP 5431 S17
https://i.imgur.com/GvbuiiZ.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/GvbuiiZl.jpg?e=1721933232&s=4vw5MD9kfEu3eHKq7T_uHA)
後續透過BIOS SPD 頁面得知是PMIC為MPS的,但未查到相關文件
DRAM 顆粒絲印為:
3HG45
D8DDZ
https://i.imgur.com/Io7w1bk.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/Io7w1bkl.jpg?e=1721912442&s=w-j3Bb5sxMfxiBlqF6fAVQ)
透過美光官網查詢顆粒絲印可知
https://reurl.cc/2LqlM6
附上美光官網顆粒文件
https://reurl.cc/p6EKnZ
開箱使用的平台 (用愛發電,請安心食用)
https://i.imgur.com/zOdfemt.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/zOdfemtl.jpg?e=1721953881&s=hbToi0V6-NU1P2J-_aT3Og)
CPU: RYZEN R9 7950X
主機板: Asrock X670E Taichi Carrara (BIOS:1.28 AGESA:1.0.0.7b)
記憶體: Crucial Pro DDR5-5600 16G *2
CPU 散熱器: Noctua NH-D15
機殼:Streacom BC1 Benchtable V2 裸測平台
PSU: Seasonic Vertex GX-1000
SSD : Crucial MX500 1TB
系統: Windows 11 專業版 22H2 組建 22621.2134
https://i.imgur.com/4fbBrAx.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/4fbBrAxl.jpg?e=1721893857&s=VHDiM_FMAYPiE8JpK6kUkA)
不嚴謹控制環境溫度在32度C左右
僅開窗戶對流
BIOS電壓及一些設定
https://i.imgur.com/7Cjf6BR.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/7Cjf6BRl.jpg?e=1721953852&s=3x_Ws_TzEioyW73iC0o7Ww)
https://i.imgur.com/KtNO3xA.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/KtNO3xAl.jpg?e=1721927370&s=bZInYSRITRucX6ZvTQQH6g)
查看 SPD 資訊
https://i.imgur.com/V8F3Kju.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/V8F3Kjul.jpg?e=1721921271&s=TGjf_WsSdnhsmVUZDs-r7Q)
https://i.imgur.com/Ap8okvL.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/Ap8okvLl.jpg?e=1721953003&s=ksR8uzqEAdNvSwmuw5-gfw)
XMP 2 組
EXPO 2 組
此次開箱開啟 EXPO-5600,EXPO-5200 與超頻後性能對比
1.Aida64 簡單跑個分
2. 使用Intel Memory Latency Checker v3.10
搭配開源GUI程式,進行測試
https://github.com/FarisR99/IMLCGui
3.使用的 https://github.com/clamchowder/MicrobenchmarksGui
作為 CPU Memory Bandwidth,CPU Memory Latency 以及 iGPU Memory Latency 跑分依據並
製作表格
4.Pyprime -2B
開啟 DDR5-5200 EXPO
Aida64 & Zentimings
https://i.imgur.com/XH71XV6.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/XH71XV6l.jpg?e=1721896108&s=bTEoWN089-8iJS-hgAGQkQ)
Intel MLC Quick Test
https://i.imgur.com/HTmNMNC.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/HTmNMNCl.jpg?e=1721915501&s=m9DnUn4IIiwq2aeWUOdWfA)
Intel MLC Bandwidth
https://i.imgur.com/0SUKPvc.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/0SUKPvcl.jpg?e=1721942208&s=lv-fjgOKgQHAYwvaz32GHw)
Microbenchmarks CPU Memory Bandwidth
https://i.imgur.com/R2M7Pl0.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/R2M7Pl0l.jpg?e=1721923952&s=DoNQ6asuieOQW0TDoCbntg)
Microbenchmarks CPU Memory Latency
https://i.imgur.com/EWEw1ER.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/EWEw1ERl.jpg?e=1721941160&s=Nq3Igcpg-leYOBItM6S7Zw)
Microbenchmarks iGPU Memory Latency
https://i.imgur.com/hxTsLNH.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/hxTsLNHl.jpg?e=1721898317&s=uOgiKs7OH0sI_3MJj9PHLQ)
Pyprime -2B
https://i.imgur.com/nIEhTLi.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/nIEhTLil.jpg?e=1721923227&s=F7Xf8uZkis-woVs7NuCm-Q)
開啟 DDR5-5600 EXPO
Aida64 & Zentimings
https://i.imgur.com/KHKQgSt.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/KHKQgStl.jpg?e=1721893103&s=ia4RyGkkS2mRMXvOwsJ4dQ)
Intel MLC Quick Test
https://i.imgur.com/K01CrND.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/K01CrNDl.jpg?e=1721897069&s=plthCEpZySYj_E7DB_Rb5w)
Intel MLC Bandwidth
https://i.imgur.com/59VBPhr.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/59VBPhrl.jpg?e=1721899604&s=ZPZzpTjc_42yuEXXiBe1ag)
Microbenchmarks CPU Memory Bandwidth
https://i.imgur.com/LwIzRfL.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/LwIzRfLl.jpg?e=1721905990&s=1khdpJEuEnf6XVGdQ0n8sw)
Microbenchmarks CPU Memory Latency
https://i.imgur.com/G8nbsEk.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/G8nbsEkl.jpg?e=1721898128&s=W7P358Iu9Emil4gFDooFHA)
Microbenchmarks iGPU Memory Latency
https://i.imgur.com/jkSjXk3.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/jkSjXk3l.jpg?e=1721956844&s=QB7ujUPP6nfOza5Jta203Q)
Pyprime -2B
https://imgur.com/creCKTd
超頻至 DDR5-6200 縮時序
https://i.imgur.com/RY1WJXh.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/RY1WJXl.jpg?e=1721920709&s=o3fVsx2Y691NCeHrwlXUUw)
https://i.imgur.com/i0dUWSy.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/i0dUWSyl.jpg?e=1721921703&s=cvafstHqRUv25GUJV6POLg)
Aida64 & Zentimings
https://i.imgur.com/OPJwj9Z.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/OPJwj9Zl.jpg?e=1721904925&s=xdKywA6vfwnIaznkGJJJZQ)
1100%燒機圖
https://i.imgur.com/y3keQ6u.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/y3keQ6ul.jpg?e=1721916138&s=MBArI6Kr575de4zvMB09Iw)
tRFC2,tRFCsb Ryzen 7000 系可能沒用到就Max Out,就不細調
Intel MLC Quick Test
https://i.imgur.com/iBDrkD1.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/iBDrkD1l.jpg?e=1721909477&s=7jrrlIUc4bwDdapND-7cdA)
Intel MLC Bandwidth
https://i.imgur.com/qHl7vkZ.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/qHl7vkZl.jpg?e=1721903395&s=EJMz9Rb2kWC1jXEF6qFShw)
Microbenchmarks CPU Memory Bandwidth
https://i.imgur.com/HactkTZ.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/HactkTZl.jpg?e=1721899487&s=tz7xcAs0E9SDn1cTPv32tg)
Microbenchmarks CPU Memory Latency
https://i.imgur.com/coXgaga.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/coXgagal.jpg?e=1721898262&s=peb0n4Cb-z-ROM8Z9lsWvg)
Microbenchmarks iGPU Memory Latency
https://i.imgur.com/S1cdimy.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/S1cdimyl.jpg?e=1721936568&s=QAo0mIRJC_zM5dV62SrIlg)
Pyprime -2B
https://i.imgur.com/SxeWqWu.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/SxeWqWul.jpg?e=1721895518&s=wiNM_4b7Al5JByKLfJcrsQ)
繪製一下 Microbenchmarks
看後段超過CPU Cache,在記憶體中執行的圖表
CPU Memory Bandwidth
https://i.imgur.com/Mo4LCID.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/Mo4LCIDl.jpg?e=1721916428&s=xXg8ajh88KlWwCKIC09fjQ)
CPU Memory Latency
https://i.imgur.com/kkh9r7k.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/kkh9r7kl.jpg?e=1721907911&s=vZQ-pg5cIkRbFpTushMH7A)
iGPU Memory Latency
https://i.imgur.com/9DkHNUN.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/9DkHNUNl.jpg?e=1721920079&s=02ZPDQl5ozeF_6Ws2XInwA)
溫度
Hwinfo 僅能讀取到 SPDHub 回饋溫度
https://i.imgur.com/IzfWOSF.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/IzfWOSFl.jpg?e=1721939708&s=Kf9TRciRtTkIYvOO7igupQ)
https://i.imgur.com/2EMuBep.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/2EMuBepl.jpg?e=1721931946&s=pftW8bFjllXE7DMc-KkVoA)
這是手動加壓超頻 DDR5-6200 室溫32度C 燒 Runmemtest Pro 穩定性測試時的最高溫度
高溫敏感自行添加風扇
需要說明的是Max欄位的 63.8度C
是瞬間跳上去後迅速掉下來,像極了讀值異常
總結
<優點>
1 最便宜的 16G*2 DDDR5 套條 (幾個通路價格都在2299,甚至比自家 DDR5-4800 16GB*2 裸
條還便宜)
2 有基本金屬散熱馬甲
3 記憶體高度與散熱器衝突較少
<缺點>
1 Pro 的定位和規格都毫無差別,如同套馬甲的裸條 ( 警慎:我不能毫無證據說一模一樣 )
2 加壓超頻散熱馬甲略顯單薄,但還未到達高溫警戒及降頻
3 高頻潛力依然不如 SKHynix M-die 顆粒套條
4 外包裝摳
*自身不足之處*
如果有一台恆溫恆濕試驗機,IR相機及Data Logger.....
IR熱分佈圖能可視化方式呈現殼溫
配合使用thermocouple及Data Logger
測量dram顆粒和PMIC實際Tcase溫度
可以得到一組記憶體整體的熱表現
下一篇文章預告 - 同樣用愛發電
Thermal Grizzly AM5 全家餐
https://i.imgur.com/Lx4KYCM.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/Lx4KYCMl.jpg?e=1721914864&s=X0iU7ug9xks11SAKDXbALw)
===================================
這裡呼籲一下 Crucial 市場行銷部
找 XF 舉辦徵文活動,沒有甚麼毛病
https://i.imgur.com/bVPK3EH.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/bVPK3EHl.jpg?e=1721910987&s=uPhwYRAnmG2RWNPmgLD_tg)
https://i.imgur.com/42EwnM6.jpg
![](https://cache.ptt.cc/c/https/i.imgur.com/42EwnM6l.jpg?e=1721899707&s=bIJe-jIg96AlfOTp7ye3AQ)
但 20 組人,20 組人,20 組人,數大便是美?
文章發到後面都反效果,不是被噓爛就是BP
在友站我看過有人被送商業宣傳行為Ban帳
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※ 編輯: FighterVin (27.52.128.129 臺灣), 08/13/2023 18:45:33