AMD Zen 4 架構、代號 Raphael 的桌上型 CPU 今(26)日正式解禁效能資訊,首批共有 Ryzen 9 7950X、Ryzen 9 7900X、Ryzen 7 7700X、Ryzen 6 7600X 等 4 款。我們先來看看這次架構有哪些改進,以及最頂級的 Ryzen 9 7950X 效能究竟如何。
架構
Zen 4 架構延續 Zen 3 架構的多晶片設計,由 1 ~ 2 顆 5nm 製程的 CCD(CPU 核心)晶片搭配 1 顆 6nm 製程的 IOD 晶片構成整顆處理器。
相較於 Zen 3,Zen 4 的核心大幅增加了 Op Cache、指令回收佇列、載入佇列,同時把 L2 快取翻倍至 1MB(每核心)。L3 快取則維持原規模,每片 CCD 共享 32MB,但延遲有進一步縮短。
在 AMD 的多晶片設計中,IOD 是負責管理 CPU 對外聯通的記憶體、PCIe 和部分高速傳輸通道。Zen 4 的 IOD 這次新增了 RDNA2 架構 GPU 當作內顯,記憶體則升級至預設 5200 MT/s 的雙通道 DDR5,並提供多達 28 條的 PCIe 5.0 通道。
在這些條件堆疊下,Zen 4 的 IPC(每時脈週期指令數量)比 Zen 3 成長了 13%。再加上 Boost 時脈提升至最高 5.7 GHz,整體單核效能可成長達 29%。
Ryzen 9 7950X 實體
這次 Ryzen 7000 系列 CPU 擺脫過去 AM4 針腳形式的 uPGA 封裝,新的 AM5 採用 LGA 1718 封裝,針腳轉移至主機板插槽上,但面積仍維持 40mm x 40mm,因此能沿用過往 AM4 的散熱器。
但值得留意的是,由於封裝型態的改變,部分 MLCC 電容必須放置在 CPU 正面,這也導致 Ryzen 7000 系列 CPU 有著造型獨特的金屬蓋,且厚度也增加了一些。因此在使用舊款散熱器時,請務必留意扣具的形式與壓力,以免壓力過大造成 LGA 接點接觸不良,甚至板彎等情事。
渲染運算
首先看到 Cinebench R20 / R23 的單核效能,Ryzen 9 7950X 比 Ryzen 9 5950X 大幅成長了 25% 以上,微幅領先 Core i9-12900K 約 2 ~ 3%。多核效能則雙雙領先 40 ~ 45%。其餘多核心渲染如 Blender、V-Ray、Corona 等,Ryzen 9 7950X 也分別領先 30 ~ 60%。
記憶體表現
記憶體由於改用了 DDR5,頻寬當然比原本使用 DDR4 快了不少,且 Ryzen 9 7950X 配上 DDR5-6000 的延遲時間能夠緊靠 Ryzen 9 5950X 搭配時序較低的 DDR4-3600。但整體表現還是略低於使用同樣 DDR5-6000 的 Core i9-12900K。
影音編碼/解碼
首先看到 Premiere Pro 進行 4K HEVC 編碼,Ryzen 9 7950X ,也領先 Core i9-12900K 近 15%。而 Blackmagic 的 4K、6K、8K 解析度 RAW 影片解碼,Ryzen 9 7950X 比 Ryzen 9 5950X 大幅成長了 38%,也領先 Core i9-12900K 約 28%。
綜合效能
Ryzen 9 7950X 在 CrossMark 商用應用測試中的成績明顯領先,Ryzen 9 5950X,其餘和 Core i9-12900K 相比則各有輸贏,但總分相當接近。
GeekBench 則是這次 Ryzen 9 7950X 的強項,相較於 Core i9-12900K,單核領先 11%,多核領先 24%。
3DMark
3DMark 模擬 DirectX 12 遊戲的 Time Spy 測試看起來並不是 AMD CPU 拿手的項目,除了 CPU 分數明顯落後 Core i9-12900K 達 19%,連帶 GPU 分數也略遜一些。
然而換到 CPU Profile 測試中,16 執行緒和最大執行緒可分別領先 Core i9-12900K 達 49% 和 35%,其餘就小贏一點點。
遊戲表現
相較於 Ryzen 9 5950X 可憐到不行的遊戲表現,Ryzen 9 7950X 進步得相當明顯,Full HD 環境的整體提升了 5%,最大甚至有 16.6%。
不過對比 Core i9-12900K,Ryzen 9 7950X 整體仍落後 2 ~ 3%,僅《刺客任務3》(Hitman 3)和《CS: GO》有贏面。
功耗與溫度
在時脈激增後,Ryzen 9 7950X 功耗明顯高出 Ryzen 9 5950X 不少,也沒有甩開對手太多。
值得一提的是,即便在 AIDA64 FPU 燒機的情況下,Ryzen 9 7950X 的 16 顆核心仍舊能維持在 5050 MHz 至 5230 MHz 運作,顯見一般負載下,Ryzen 9 7950X 全核心,都能維持在 5 GHz 以上運作。
總結
憑藉著 IPC 效能與運作時脈雙雙提升,再加上全核心幾乎可維持在 5 GHz 以上運作,Ryzen 9 7950X 的多核心效能再度於消費級桌上型電腦平台創下紀錄,單核心效能的表現也算可圈可點,甚至全面改用 LGA 封裝,總算擺脫過去拆裝容易撞歪針腳的風險,真的是可喜可賀。
稍嫌可惜的是遊戲效能仍無法超越對手近一年前發表的旗艦,但整體表顯已相當接近。另外,由於功耗上漲,更需要精心挑選夠力的散熱器。
綜觀而言,Ryzen 9 7950X 再度奪回消費級 PC 多核心效能霸主的寶座,比較適合有渲染運算或影音編碼需求的用戶,有興趣的朋友可以準備入手了!
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