TW201804282A - 可機器式服務的運算機架及滑橇 - Google Patents
可機器式服務的運算機架及滑橇 Download PDFInfo
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- TW201804282A TW201804282A TW106118344A TW106118344A TW201804282A TW 201804282 A TW201804282 A TW 201804282A TW 106118344 A TW106118344 A TW 106118344A TW 106118344 A TW106118344 A TW 106118344A TW 201804282 A TW201804282 A TW 201804282A
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Abstract
範例可包括用於一資料中心的機架與用於該等機架的滑橇,該等滑橇被配置為可容裝用於該資料中心的實體資源。該等滑橇與機架可配置為藉由諸如一機器而自主性操縱。該等滑橇與機架可包括促進自動化安裝、移除、維護與操縱的特徵。
Description
在此描述的實施例一般係關於資料中心,更特定地係關於在一資料中心的機架。
在網路的進步已經使得可組態計算資源池增加。一匙可組態計算資源可由一實體基礎架構所形成,實體基礎架構包括分散(disaggregate)實體資源,例如,如在大資料中心中所見者。該實體基礎架構可包括一些資源,該等資源具有處理器、記憶體、儲存器、網路、電力、冷卻等等。管理此等資料中心的實體可合併一些實體資源的選擇以形成伺服器及/或計算主機。此等主機可接著被分配以執行及/或主持系統SW(例如,OS、VM、或類似者)。傳統資料中心存在一些挑戰。例如,管理(例如,安裝、替換、進行維護或類似者)在資料中心中遍佈的實體資源的體積會是很有挑戰性的。此外,管理由大量實體資源所產生的熱也會是一個挑戰。
根據本揭露的一實施例,係特地提出一資料中心機架,其包含:一第一柱體與一第二柱體;與複數對滑橇托架,來自該等複數對滑橇托架中之各者的一第一滑橇托架與該第一柱體耦接,來自該等複數對滑橇托架中之各者的一第二滑橇托架與該第二柱體耦接,該等複數對滑橇托架各界定可容納一滑橇的一滑橇空間。
根據本揭露的另一實施例,係特地提出一系統,其包含:用於一資料中心的一滑橇,該滑橇包含一機架安裝特徵,與至少一個實體資源;以及該資料中心的一機架,該機架包含:一第一柱體與一第二柱體,與複數對滑橇托架,來自該等複數對滑橇托架中之各者的一第一滑橇托架與該第一柱體耦接,來自該等複數對滑橇托架中之各者的一第二滑橇托架與該第二柱體耦接,該等複數對滑橇托架之各者界定可容納一滑橇的一滑橇空間。
根據本揭露的又一實施例,係特地提出一種方法,其包含下列步驟:發送一移動控制訊號到一機器,該移動控制包括使該機器移動到靠近一資料中心中之一滑橇的一指示;以及發送一操縱控制訊號至該機器,該操縱控制訊號包括使該機器實體地操縱該滑橇的一指示。
根據本揭露的又一實施例,係特地提出一種系統,其包含:用於一資料中心的一滑橇,該滑橇包含複數個實體計算資源,該等複數個實體計算資源在操作時可產生一些熱能;以及該資料中心的一機架,該機架包含:可界定該機架之一後平面的一第一柱體與一第二柱體;複數對滑橇托架,來自各個該等複數對滑橇托架中之一第一滑橇托架與該第一柱體耦接且來自各個該等複數對滑橇托架中之一第二滑橇托架與該第二柱體耦接,各個該等複數對滑橇托架可界定該機架的側平面,該機架的該等側平面不包含一外殼;以及複數個風扇設置在靠近該機架的該後平面處,該等複數個風扇可將空氣移動橫越該等複數個實體計算資源以冷卻該等實體計算資源。
資料中心可由大量的機架組成,該等機架可包含許多類型的硬體或可組態資源(例如,處理單元、記憶體、儲存器、加速器、網路、風扇/冷卻模組、電力單元等等)。在資料中心中部署的硬體或可組態資源的類型可被稱為實體資源或分解元件。可以理解的是,在一資料中心的的實體資源只大小與數量可以很大,例如,大概數十萬的實體資源。此等實體資源可被聚集以形成用於大量與各種計算工作的虛擬計算平台。
更進一步地,此等實體資源通常被設置在位於一倉庫或多個倉庫內的機架中 。本揭露提供設置為可接受棧板的機架且棧板被設置為可容裝一些實體資源。在此描述的機架與棧板是由機器式操作而設置;因而提供一資料中心,在此被容裝在棧板與機架中的實體資源可受機器式服務(例如,安裝、更換、移除、操作、檢查或類似者)。換句話說,棧板可被安裝至機架及/或從機架被移除。此外,可從機架移除至少一些實體資源而不需人類輔助。例如,一機器人(例如,機械手臂、叉設備或類似者)可使用來將棧板安裝到機架並從機架移除。本揭露的此等與其他特徵將會更詳細地在以下描述。
現在參照圖式,其中,類似的元件標號始終係用來指涉類似的元件。在以下的描述中,為了解釋的目的,為了提供更透徹的理解提出許多特定細節。雖然很明顯地,新穎的實施例可以在沒有此等特定細節的狀況下實施。在其他實例中,為了方便描述,已知的架構與裝置以方塊圖的型式顯示。欲提供完整的描述使得在申請專利範圍的範圍之內之所有改變與等效物及替代者可以充分的描述。
此外,提及變數諸如「a」、「b」、「c」僅使用來指出多個組件,其中可以有大於一個組件來實施。重要的是要注意不必要有多個組件,且進一步地,其中實施有多個組件,他們不需要是完全相同的。相反地,在圖式中提及組件之變數的使用是為了方便且明確的表示。
圖1例示說明一資料中心100之概念上的概觀,資料中心100可大致為在此描述的一或多個技術中或可用於此技術之可根據各種實施例所實施者的一資料中心的代表或其他類型的計算網路。如此圖中所顯示者,資料中心100一般可含有複數個機架,各個機架可容裝有包含一個別之實體資源組的計算裝備。在圖1中所描繪之特定的非限制性範例中,資料中心100含有四個機架102A至102D,其容裝了包含個別的實體資源(PCR)組105A至105D的計算裝備。本揭露提供一些範例機架(至少參考圖2、6、8~9、12A~12E與17~18)。為了方便對此等範例機架與此等機架的特徵的自動(及/或機器式)操作,以下連同此等圖式的描述提出更詳細的描述。根據圖1的範例,資料中心100的一集體實體資源組106包括各種實體資源組105A至105D,其係分布於機架102A至102D中。實體資源106可包括多個類型的資源,諸如,例如,處理器、協處理器、加速器、現場可程式閘陣列(FPGA)、圖形處理單元(GPU)、記憶體、互連組件與儲存器。實施例不限定在此等範例。
所例示的資料中心100在許多方面與典型的資料中心不同。例如,在所例示的實施例中,電路板(滑橇)上所放置的組件諸如CPU、記憶體與其他組件被設計來增加熱效能。更特定地,在所例示實施例中,滑橇是較典型的板體更淺。換句話說,滑橇是從前至後較短的,此是冷卻風扇放置處。這增加了空氣必須穿越在板體上的路徑長度。更進一步地,在滑橇上的組件被配置為減少或排除造影(亦即,一組件在另一組件的氣流中)。在所例示的實施例中,諸如處理器的處理組件位於一滑橇的一頂側且靠近諸如DIMM的記憶體處,記憶體位於該滑橇的一底側上。由此設計所提供之增強氣流的結果,組件可相較於傳統系統在較高的頻率與電力位準下運作,因而提升性能。更進一步地,該等滑橇被組配為可與在個機架102A、102B、102C、102D中的電力與資料通訊電纜封閉式(blind)匹配,增強其可被快速移除、升級、重新安裝及/或替換之效能。類似地,位於該等滑橇上之個別組件,諸如處理器、加速器、記憶體與資料儲存裝置受組配為由於他們與彼此間增加之間隔而可容易地被升級。在所例示的實施例中,該等組件附加地包括硬體認證特徵以提供對他們的鑑別。
更進一步地,在所例示之實施例中,該資料中心100使用一單一網路架構(fabric,組構)其支援多個其他網路架構,包括乙太網與全路徑。該等滑橇在所例示之實施例中,係經由光纖而與開關耦接,該等光纖提供比傳統雙絞線電纜(例如,類型5、類型5e、類型6等等)較高的頻寬與較少的等待時間。由於較高頻寬,較少等待時間之互連與網路架構,資料中心100可在諸如記憶體、加速器(例如,圖形加速器、FPGA、ASIC等等)之資源池與實體分解(disaggregated)的資料儲存器中使用,並且根據需求為他們提供計算資源(例如處理器),使得計算資源只要他們是區域性即可取用資源池。所例示的資料中心100附加地接收用於資源使用的使用資訊,且基於此資訊動態重新分配資源。
資料中心100的機架102A至102D可包括實體設計特徵,該等特徵可促使各種類型的維護工作自動化。例如料中心100可使用設計為可機器式取用的機架而實施,且接收並容裝機器式可操縱資源滑橇。更進一步地,在一些實施例中,機架102A至102D包括整合電力資源,該等整合電力資源接收較一般用於電力資源者的較大電壓。增加電壓可使電力資源提供額外的電力給在各滑橇上的該等組件,使得該等組件可以較傳統頻率高的頻率而運作。
圖2例示說明該資料中心100的一機架202的一範例邏輯組態。如圖2中所示,機架202一般可容裝複數個滑橇,該等滑橇各可包含一個別之實體資源組。在此圖中所描繪之特定的非限制性範例中,機架202容裝了個別的滑橇204-1至204-4其包含實體資源組205-1至205-4,其各構成了被包含在機架202中的實體資源206的聯合組之一部分。相對於圖1,若機架202例如為機架102A之代表,那麼實體資源206可對應於被包含在機架102A中的實體資源105A。本揭露提供容裝實體資源(至少參照圖7、10與15A至15C)的一些範例滑橇。此等範例滑橇與此等滑橇的特徵之更詳細描述在以下連同此等圖式提出以促進自動化(及/或機器式)操作。
在圖2之範例中所描述的內文中,實體資源105A可因而組成在機架202的滑橇204-1至204-4中所包含的個別實體資源205-1至205-4集合。如在此例示性實施例中所描述者,實體資源205-1至205-4包括實體儲存資源205-1、實體加速資源205-2、實體記憶體資源205-3與實體計算資源205-4。時實例不限定在此範例中。各滑橇可包含各種類型的實體資源(例如,計算、記憶體、加速器、儲存器)之任何組合的一池。藉由使得機器式可取用與機器式可操作滑橇包含分散(disaggregated)資源,各資源類型可獨立於彼此升級且以其等最佳速率更新。
圖3例示說明一資料中心300的一範例,資料中心300可大致為在此描述的一或多個技術中或可用於此技術之可根據各種實施例所實施者的一代表。在圖3中所描述的特定非限制性範例中,資料中心300包含機架302-1至302-32。在各種實施例中,資料中心300的機架可以下述方式配置以界定及/或容納各種取用途徑。例如,如圖3中所示,資料中心300的機架可以可界定及/或容納取用途徑311A、311B、311C與311D的方式而配置。在一些實施例中,此等取用途徑的存在一般可啟用自動化維護裝備,諸如機器式維護裝備(例如,參照圖19)實體地取用容裝在資料中心300中各種機架內的計算裝備,且進行自動化維護工作(例如,替換一失效滑橇、升級滑橇)。在各種實施例中,取用途徑311A、311B、311C與311D的尺寸、機架302-1至302-32的尺寸及/或資料中心300實體輸出的一或多個其他態樣可以促進此等自動化操作而受選擇。實施例並不限定在此內文。
圖4例示說明一資料中心400的一範例,該資料中心可大致為在此描述的一或多個技術中或可用於此技術之可根據各種實施例所實施者的一代表。如圖4中所示,資料中心400可具有一光學組構412。光學組構412一般可包含光學傳訊媒體(諸如光學電纜)與光學切換基礎架構的一組合,經由該光學組構412在資料中心400中的任何特定滑橇可傳訊至(以及從其接收訊號)在資料中心400中的各個其他滑橇。光學組構412提供給任何給定滑橇的發訊連接度可包括在同一機架中的其他滑橇與其他機架中的滑橇兩者的連接度。在圖4中所描述之特定非限定範例中,資料中心400包括四個機架402A至402D。機架402A至402D容裝個別滑橇對404A-1與404A-2、404B-1與404B-2、404C-1與404C-2以及404D-1與404D-2。因此,在此範例中,資料中心400包含共八個滑橇。經由光學組構412,各滑橇可具有與資料中心400中的七個其他滑橇各者的發訊連接度。例如,在機架402A中的滑橇404A-1可經由光學組構412而具有與在機架402A中之滑橇404A-2的發訊連接性,以及在資料中心400的其他機架402B、402C與402D中所分布的六個其他滑橇404B-1、404B-2、404C-1、404C-2、404D-1與404D-2。實施例不限定於此範例。
圖5例示說明一連接策略500的一概要圖,該連接策略500一般可為在一資料中心的各種滑橇之中建立的鏈路層連接性的代表,資料中心諸如圖1、3與4中的任何範例資料中心100、300與400。連接性策略500可使用光學組構來實施,其具有雙模式光學切換基礎架構514。雙模式光學切換基礎架構514一般可包含一切換基礎架構,其可根據多種鏈路層協定經由一相同統一光學發訊媒體組而接收訊息,且恰當地切換此等通訊。在各種實施例中,雙模式光學切換基礎架構可使用一或多個雙模式光學切換器515來實施。在各種實施例中,雙模式光學切換器515一般可包含高基數(high-radix)切換器。在一些實施例中,雙模式光學切換器515包含多個切換器,諸如四層(four-ply switches.)切換器。在各種實施例中,雙模式光學切換器515可具有積體矽光學,其可使其切換通訊相較於傳統切換裝置顯著地減少延遲。在一些實施例中,雙模式光學切換器515可在一葉主幹(spine)架構中構成葉片式切換器530,葉主幹結構附加地包括一或多個雙模式光學主幹切換器520。
在各種實施例中,雙模式光學切換器可經由一光學組構的光學發訊媒體而接收乙太網協定承載互聯網協定(IP封包)訊息以及根據一第二高性能計算(HPC)鏈路層協定(例如,英特爾的全路徑架構的無線寬頻)的訊息。如圖5中所反映者,對於具有與該光學組構之光學發訊連接性的任何特定對滑橇504A與504B,連接性策略500可因而經由乙太鏈路與HPC鏈路而提供支援鏈路層連接性。因此,乙太通訊與HPC通訊兩者可由單一高頻寬、低延遲交換結構支援。實施例不限定在此範例。
圖6例示說明一機架架構600的一概要概觀,該機架架構600為根據一些實施例在圖1至4中所描述的機架中之任何特定一者。的一代表型架構。如圖6中所反映,機架架構600一般可具有滑橇可插入其中的複數個滑橇空間,各滑橇空間為可經由一機架取用區域601而為機器式可取用。在圖6中所描述的特定非限定範例中,機架架構600具有五個滑橇空間603-1至603-5。滑橇空間603-1至603-5具有個別多用途連接器模組(MPCM)616-1至616-5。
會由機架架構600所容納之包括的滑橇類型可唯一或多個類型的滑橇,其具有可擴充能力。圖7例示說明一滑橇704的一範例,其為一個此等類型的滑橇之一代表。如圖7中所顯示,滑橇704可包含一組實體資源705,以及MPCM716,MPCM716被設計為在滑橇704插入諸如任何圖6的滑橇空間603-1至603-5的一滑橇空間內時與一相映MPCM耦接。滑橇704亦可具有一擴充連接器717。擴充連接器717一般可包含一插座、插槽或可容納擴充模組的一或多個類型之其他類型的連接元件,擴充模組諸如諸如擴充滑橇718。藉由與在擴充滑橇718上的一相映連接器耦接,擴充連接器717可取用位於擴充滑橇718上之補充計算資源705B的而提供具有實體資源705。實施例不限定在此內文。
圖8例示說明一機架架構800的一範例,機架架構800可為為了提供給具有擴充能力的諸如圖7的滑橇704之滑橇的支援的一機架架構的一代表。在圖8中所描述的特定非限定範例中,機架架構800包括七個滑橇空間803-1至803-7,其具有個別MPCM 816-1至816-7。滑橇空間803-1至803-7包括主要區域803-1A至803-7A以及個別擴充區域803-1B至803-7B。對於此等滑橇空間各者,當對應MPCM與一已插入滑橇的一相應MPCM耦接時,主要區域一般可構成滑橇空間的實體容納已插入滑橇的一區域。在已插入滑橇組配為具有此等一模組的狀況下,擴充區域一般可構成滑橇空間實體容納一擴充模組的一區域,擴充模組諸如圖7的擴充滑橇718。
圖9例示說明一機架902的一範例,該機架902可為根據一些實施例之根據圖8之機架架構800所實施的一機架的代表。在圖9中所描述特定非限定範例中,機架902具有七個滑橇空間903-1至903-7,其包括個別主要區域903-1A至903-7A與個別擴充區域903-1B至903-7B。在各種實施例中,機架902內的溫度控制可使用空氣冷卻系統來實施。例如,如圖9中所反映,機架902可具有複數個風扇919,其一般配置來提供使各種滑橇空間903-1至903-7內的空氣冷卻。在一些實施例中,滑橇空間的高度大於傳統「1U」的伺服器高度。在此等實施例中,風扇919一般可包含相較於在傳統機架組態中使用之風扇相對慢、大直徑的冷卻風扇。相較於以較高速度運轉之較小直徑冷卻風扇,以較低速度運轉較大直徑風扇可增加風扇的壽命但仍可提供同樣的冷卻量。滑橇實體地較傳統機架尺寸來的淺。更進一步地,配置在各滑橇上的組件用於減少熱陰影(thermal shadowing,亦即沒有依序地以氣流的方向配置)。作為結果,因為裝置可以由於改善冷卻(亦即,沒有熱陰影、裝置間有更多空間、更大的空間給更大的散熱器,等等)而在較高熱封套(thermal envelope,例如250W)下運作,更寬、更淺的滑橇允許裝置效能的增加。
MPCM 916-1至916-7可組態為可提供已插入滑橇藉由個別電力模組920-1至920-7而取用電力來源,各者可從一外部電源921提取(draw)電力。在各種實施例中,外部電源921可遞送交流電流(AC)電力至機架902,且電力模組920-1至920-7可組配為將此等AC電力轉換為會被作為已插入滑橇來源的直流電流(DC)電力。在一些實施例中,例如,電力模組920-1至920-7可能組態為可轉換277伏特交流電電力成為12伏特的直流電電力以經由個別MPCM 916-1至916-7而提供給已插入滑橇。在一些範例中,MPCM916-1至916-7可與個別電力模組920-1至920-7經由電纜925-1至925-7耦接。實施例不限定在此範例。
MPCM 916-1至916-7亦可被配置來提供已插入滑橇對於一雙模式光學切換基礎架構914的光學傳訊連接性,其可與圖5的雙模式光學切換基礎架構514相同或類似。在各種實施例中,在MPCM 916-1至916-7中包含的光學連接器可被設計來與被包含在已插入滑橇的MPCM之相映光學連接器耦接,以提供此等滑橇對於雙模式光學切換基礎架構914經個別光學電纜922-1至922-7之長度的光學傳訊連接性。在一些實施例中,此等光學電纜的此等長度各可從其對應之MPCM延伸至一光學互連一資料923其位於該機架902的滑橇空間外部。在各種實施例中,光學互連織機(loom)923可被配置為能通過一支撐柱或機架902的其他類型的負載承載元件。實施例不限定在此上下文。因為插入滑橇經由MPCM連接至一光學切換基礎架構,可以節省典型地耗費在手動組配機架電纜以容納新插入滑橇的資源。
圖10例示說明一滑橇1004的一範例,滑橇1004可為根據一些實施例之設計來連同圖9的機架902一起使用的一代表。滑橇1004可具有一MPCM 1016,MPCM 1016包含一光學連接器1016A與一電力連接器1016B且被設計為MPCM1016插入一滑橇空間時與該滑橇空間的一相映MPCM耦接。將MPCM 1016與此等相映MPCM耦接可致使電力連接器1016B與被包含在相映MPCM中的一電力連接器耦接。這一般會使滑橇1004的實體資源1005可經由電力連接器1016B與電力傳輸媒體1024而從一外部來源提供電力源,電力傳輸媒體1024導通地使電力連接器1016B與實體資源1005耦接。
滑橇1004亦可包括雙模式光學網路介面電路1026。雙模式光學網路介面電路1026一般可包含電路,此電路可根據由雙模式光學切換基礎架構(例如,圖5的514、圖9的914或類似者)所支援的多鏈路層協定的各者以透過光學傳訊媒體而通訊。在一些實施例中,雙模式光學網路介面電路1026可進行乙太協定通訊以及根據一第二高性能協定的通訊。在各種實施例中,雙模式光學網路介面電路1026可包括一或多個光學收發器模組1027,其中各者可透過一或多個光學通道中之各者而傳輸與接收光學訊號。實施例不限定在此上下文。
使一MPCM1016與在一給定機架中的一滑橇空間的一相映MPCM耦接可能致使光學連接器1016A與被包含在相映MPCM中的一光學連接器耦接。這一般可在滑橇的光學電纜與雙模式光學網路介面電路1026之間經由一組光學通道1025中各者而建立光學連接性。雙模式光學網路介面電路1026可與滑橇1004的實體資源1005經由電力傳訊媒體1028而通訊。除了可提供改善冷卻與能夠在相對高熱封(例如,250W)中之運作的滑橇的尺寸與在滑橇上的組件之配置以外,如以上參照圖9的描述,在一些實施例中,一滑橇可包括一或多個附加特徵以促進空氣冷卻,諸如配置來將實體資源1005所產生之熱能消散的一熱交換管及/或散熱器。值得注意的是雖然在圖10中的範例滑橇1004並不具有一擴充連接器,根據一些實施例,具有滑橇1004之設計元件的任何給定滑橇亦可具有一擴充連接器。實施例不限定在此上下文。
圖11例示說明一資料中心1100的一範例,資料中心1100可大致為在此描述的一或多個技術中或可用於此技術之可根據各種實施例所實施者的的代表。如此圖11中所反映者,實體基礎架構管理框架1150A可實施來促進對資料中心1100的一實體基礎架構1100A的管理。在各種實施例中,實體基礎架構管理框架1150A的一功能為可管理在資料中心1100內的自動化維護功能,諸如在實體基礎架構1100A中使用機器式維護裝備來服務計算裝備。在一些實施例中,實體基礎架構1100A可具有一先進遙測系統,其進行足以強健地支援遠端自動化管理實體基礎架構1100A的遙測報告。在各種實施例中,由此等演進式遙測系統所提供的遙測資訊可支援諸如錯誤預測/避免能力以及容量規劃能力的特徵。在一些實施例中,實體基礎架構管理框架1150A亦可組配為可使用硬體認證(attestation)技術而管理實體基礎架構組件的鑑認。例如,在安裝前藉由分析從與會被安裝之各組件相關聯的射頻識別(RFID)標籤所收集的資訊,機器可驗證組件的真偽。實施例不限定在此上下文。
如圖11中所示,資料中心1100的實體基礎架構1100A可包含一光學組構1112,其可包含雙模式光學切換基礎架構1114。光學組構1112與雙模式光學切換基礎架構1114可分別與圖4的光學組構412以及圖5的雙模式光學切換基礎架構514相同或相似,且可在資料中心1100的滑橇中提供高頻寬、低延遲、多協定連接性。如以上所描述者,參照圖1,在各種實施例中,此等連接性的可得性可使得有彈性地將資源分解並動態地匯集(pool),資源諸如加速器、記憶體與儲存器。在一些實施例中,一或多個匯集加速器滑橇1130可被包括在資料中心1100實體基礎架構1100A的池中,實體基礎架構1110A的各者可崩含加速器資源的一池,諸如協同處理器及/或FPGA,例如,其可經由光學組構1112與雙模式光學切換基礎架構1114全球性存取其他滑橇。
在另一範例中,在各種實施例中,一或多個匯集儲存滑橇1132可被包括在資料中心1100的實體基礎架構1100A中,其各可包含可經由光學組構1112與雙模式光學切換基礎架構1114全球性存取其他滑橇的一儲存資源池。在一些實施例中,此等匯集儲存滑橇1132可包含固態儲存裝置池,諸如固態驅動機(SSD)。在各種實施例中,一或多個高性能處理滑橇1134可被包含在資料中心1100的實體基礎架構1100A中。在一些實施例中,高性能處理滑橇1134可包含高性能處理器池,以及可增強空氣冷卻以產生高達250W或更多之較高熱封的冷卻特徵。在各種實施例中,任何給定高性能處理滑橇1134可具有一擴充連接器1117,其可接收一遠記憶體擴充滑橇,以致使對高性能處理滑橇1134為可取得的區域性可取得的遠記憶體會從處理器與被包含在該滑橇上的近記憶體分離(disaggregate)。在一些實施例中,此等高性能處理滑橇1134可組配有使用一擴充滑橇的遠記憶體,擴充滑橇包含低延遲SSD儲存器。光學基礎架構允許在一滑橇上的計算資源利用位於相同機架上的一滑橇上或任何其他在資料中心中的機架為分離的遠端加速器/FPGA、記憶體及/或SSD資源。遠端資源可位於在參照圖5中所描述的葉主幹網路架構中的一切換跳開(one switch jump away)或兩切換跳開處。實施例不限定在此上下文。
在各種實施例中,為了要定義諸如一軟體定義基礎架構1100B的一虛擬基礎架構,一或多層提取可應用於實體基礎架構1100A的實體資源。在一些實施例中,虛擬計算資源1136或軟體定義基礎架構1100B可被分配來支援雲端服務1140之提供。在各種實施例中特定集合的虛擬計算資源1136可被分群來提供SDI服務1138為格式的雲端服務1140。雲端服務1140的範例可包括,但不限定於,軟體如一服務(SaaS)服務1142、平台作為服務(PaaS)服務1144、以及基礎架構作為服務(IaaS)服務1146。
在一些實施例中,軟體定義基礎架構1100B的管理可使用一虛擬基礎架構管理框架1150B來進行。在各種實施例中,虛擬基礎架構管理框架1150B可設計來實施工作負載指紋分析技術及/或機器學習技術,連同虛擬計算資源1136及/或SDI服務1138對雲端服務1140的分配。在一些實施例中,虛擬基礎架構管理框架1150B可使用/參考遙測資料連同進行此等資源分配。在各種實施例中,一應用程式/服務管理框架1150C可實施來提供用於雲端服務1140的QoS管理能力。實施例不限定在此上下文。
圖12A至12E例示說明一機架1202的立體視圖,該機架可為根據一些實施例所實施的一機架之代表。在所描述的特定非限定範例中,機架1202可包括配置來形成機架1202的多個組件。一般來說,機架1202的完整描述是參照圖12A所提出,同時在圖12B至12E中提出對個別組件及/或機架1202的替代性立體視圖。
更精確地接著參照圖12A,機架1202被描述為具有六個滑橇空間1203-1至1203-6者。應當注意的是滑橇空間的數量是以可以促進理解的方式來描述而非限制。因此機架1202可實施為具有任何數量的滑橇空間。
機架1202包括一對柱體1260A與1260B。柱體1260A與1260B如所描述地配置在機架1202的後角落處。柱體1260A與1260B可被遇見為或描述為形成機架1202的一後平面中的角。在一些範例中,柱體1260A與1260B為空心的。在一些範例中,柱體1260A與1260B為完全相同的。機架1202進一步包括一些滑橇托架1270A與1270B。一般來說,機架1202亦可具有用於由機架1202所提供之各滑橇空間的一對滑橇托架。據此,在所例示的範例中,機架1202包含分別對應於滑橇空間1203-1至1203-6的一對滑橇托架1270A-1與1270B-1至1270A-6與1270B-6。
重要的是要注意機架1202可與一或多個相鄰機架(例如,諸如圖3的相鄰機架302或類似者)共享一柱體(例如,柱體1260A、柱體1260B或類似者)。例如,柱體1260A可與機架1202之一第一側相鄰的另一機架共享;柱體1260B可與機架1202之一第二側相鄰的另一機架共享;或柱體柱體1260A可與機架1202之第一側相鄰的另一機架共享,同時柱體1260B可與機架1202之第二側相鄰的另一機架共享。範例不限定在此上下文。
各對滑橇托架中的托架可與個別柱體1260A與1260B機器式耦接。例如,滑橇托架1270A-1至1270A-6庾柱體1260A耦接,同時滑橇托架1270B-1至1270B-6與柱體1260B耦接(參照圖12D與12E)。滑橇托架可被預見為或描述為形成機架1202的側平面。在一些範例中,一對滑橇托架中的滑橇托架可與彼此完全相同。例如,滑橇托架1270A-1與1270B-1可為完全相同。一般來說,各對滑橇托架1270A-1與1270B-1至1270A-6與1270B-6形成一架子(例如,參照圖13A-13B與圖15A至15C),其中滑橇可機器式安裝。以下將更詳細的描述。
在各種實施例中,在機架1202中的溫度控制可使用空氣冷卻系統來實施。例如,機架1202可具有複數個風扇1219,其等一般配置來提供在個滑橇空間1203-1至1203-6中的空氣冷卻。在一些實施例中滑橇空間的高度大於傳統「1U」伺服器高度。在此等實施例中,風扇1219一般可包含相較於在傳統機架組態中所使用之風扇相對低、大直徑的冷卻風扇。相較於以較高速度運轉之較小直徑冷卻風扇,以較低速度運轉較大直徑風扇可增加風扇的壽命但仍可提供同樣的冷卻量。滑橇實體地較傳統機架尺寸來的淺。特定地,在一些特定非限制範例中,滑橇空間1203-1至1203-6可介於10至40吋寬、6至18吋深以及2至8吋高。在一特定非限制範例中,滑橇空間1203-1至1203-6可為18吋寬、10吋深與4吋高。在一特定例示性範例中,滑橇可為18吋寬、10吋深與8吋寬。
應當注意的是,在滑橇(例如,參照圖15A與18)上的實體資源可配置在個滑橇上以減少熱陰影(亦即沒有依序地以氣流的方向配置)。作為結果,因為裝置可以由於機架架構1202所致能之改善冷卻(亦即,沒有熱陰影、裝置間有更多空間、更大的空間給更大的散熱器,等等)而在較高熱封套(例如250W)下運作,更寬、更淺的滑橇允許裝置效能的增加。
MPCM 1216-1至1216-6可組態為可提供已插入滑橇藉由個別電力模組1220-1至1220-6而取用電力來源,各者可從一外部電源(參照圖9)提取電力。在各種實施例中外部電源921可遞送交流電流(AC)電力至機架1202,且電力模組1220-1至1220-6可組配為將此等AC電力轉換為會被作為已插入滑橇來源的直流電流電力。在一些實施例中,例如,電力模組1220-1至1220-6可能組態為可轉換277伏特交流電電力成為12伏的直流電電力以經由個別MPCM 1216-1至1216-6而提供給已插入滑橇。實施例不限定在此範例。
MPCM 1216-1至1216-6亦可被配置來提供已插入滑橇對於一雙模式光學切換基礎架構(例如,參照圖9)的光學傳訊連接性,其可與圖5的雙模式光學切換基礎架構514相同或類似。在各種實施例中,在MPCM 1216-1至1216-6中包含的光學連接器可被設計來與被包含在已插入滑橇的MPCM之相映光學連接器耦接,以提供此等滑橇對於雙模式光學切換基礎架構經個別光學電纜(例如,參照圖16A至16B)之長度的光學傳訊連接性。在一些實施例中,此等光學電纜的此等長度各可從其對應之MPCM延伸至對於機架1202的滑橇空間為外部的一光學互連資料(例如,參照圖12)。
更進一步地,機架1202可具有一或多對滑橇維持器1280,滑橇維持器1280分別與滑橇托架1270A與1270B耦接且被配置為與在滑橇空間1203中的滑橇對齊及/或維持滑橇空間1203中的滑橇。例如,滑橇維持器1280A與1280B被描述為分別與滑橇托架1270A-3與1270B-3至1270A-5與1270B-5耦接。然而,為了清楚起見,在此圖式中僅特別點出滑橇維持器1280A與1280B與滑橇托架1270A-3與1270B-3耦接。在一些範例中,在各對滑橇維持器中的滑橇維持器1280A與1280B可為完全相同。
更特定地參照圖12B,將更詳細例示說明機架1202的一部分。更特定地,柱體1260A與1260B將被描述而沒有描述機架的其他組件,以更清楚的例示說明根據一些實施例實施之一機架的代表範例。如此圖中所描繪者,各機架柱體(例如,柱體1260A與1260B)可具有滑橇托架安裝部1261。一般來說,滑橇托架安裝部1261被配置為與滑橇托架1270(參照圖12D)機器式耦接以將滑橇托架固定到如此所描繪與描述的柱體上。更特定地,滑橇托架安裝部1261可被配置為與在滑橇托架上的對應機架柱體安裝部(參照圖12D)機器式耦接以將滑橇托架固定到柱體1260A與1260B上。在一些範例中,滑橇托架安裝部1261可為被切除部(例如,如所描繪者)。在一些範例中,滑橇托架安裝部1261可為突塊,具有可與在滑橇托架中對應切除部機器式耦接的特徵。
機架柱體1260A與1260B可更進一步具有設置在一或多個柱體中的一織機1223。例如,此圖例示說明織機1223設置在柱體1260B中。應當注意的是,織機1223可設置在柱體1260B之內,例如,在一淺穴中、在一凹槽中或類似者。參照圖12E為更完整的例示說明。在一些範例中,織機1223可為類似參照圖9所描述的光學互連織機923。在各種實施例中,光學互連織機,諸如織機1223可為通過柱體或機架1202的其他類型負載承載元件而配置。例如,如所描述者,織機1223通過柱體1260B。
機架柱體1260A與1260B可更進一步具有滑橇空間電纜取用埠1265。一般來說,滑橇空間電纜取用埠1265可配置來提供給個別滑橇空間1203-1至1203-6的光學互連、傳統銅線互連及/或電力佈線。例如,埠1265可提供在一滑橇空間中的佈線以使MPCM與在織機1223中的互連佈線的取用。接著更特定地參照圖12C,機架1202的一部分更詳細地例示說明。更明確地,柱體1260A與1260B將被描述而沒有描述機架的其他組件(例如,托架、風扇等等),以更清楚的例示說明根據一些實施例實施之一機架的代表範例。更特定地,此圖式描繪光學互連佈線1222在設置於機架1202之柱體1260B中的織機1223與MPCM1216之間延伸。
更明確地,為了清楚起見,此圖式例示說明一些滑橇空間1203。更精確地,描繪滑橇空間1203-4至1203-6。機架1202可具有用於各滑橇空間的MPCM托架1267。一般來說MPCM托架1267可支撐個別MPCM在一滑橇空間中。例如,MPCM托架1267-4至1267-6被描繪為支撐個別MPCM 1216-4至1216-6於滑橇空間1203-4至1203-6中。
更進一步地,光學佈線1222被描述為在柱體1260B內的織機1223與MPCM 1216之間經由電纜取用埠1265而運行。一般來說,各此等光學佈線1222的長度可從其對應之MPCM延伸至機架1202之滑橇空間外部的一織機1223。例如,光學佈線1222-4至1222-6被描述為經由個別電纜取用埠1265而在織機1223與個別MPCM 1216-4至1216-6運行。
圖12D更詳細例示說明機架1202的一部分。特定地,一滑橇托架1270將被描述而沒有描述機架的其他組件(例如,柱體、托架、風扇等),以更清楚的例示說明根據一些實施例實施之一機架的代表範例。所描繪之機架1202的滑橇托架1270可對應於在圖12A至12C與12E中所描繪的任何滑橇托架1270,諸如,例如滑橇托架1270A-1至1270A-6或滑橇托架1270B-2至1270B-6。如此例示圖式所描繪者,滑橇托架1270可包括一柱體安裝部1271與托架對齊特徵1272。
一般來說柱體安裝部1271被配置且組配為可與機架柱體(例如,柱體1260A、1260B或類似者)機器式耦接以將滑橇托架1270如在此描繪與敘述地固定至機架1202的柱體。更特定地,柱體安裝部1271可被配置為與在一柱體上的一對應滑橇托架安裝部1261(例如,參照圖12B)機器式耦接以將滑橇托架1270固定到該柱體。在一些實施例中,柱體安裝部1271可為具有可與柱體中對應切除部(例如,如所描繪者)機器式耦接之特徵的一突塊。在一些範例中,柱體安裝部1271可為配置來與一柱體的一突塊機器式耦接的切除部。在一些範例中,滑橇托架1270可具有大於一個柱體安裝部1271。
一般來說,托架對齊特徵1272可為任何特徵(例如,突塊、棘爪、切除部、凹陷、凸出或類似者),配置為與柱體的一特徵(例如,滑橇托架安裝部1261)機器式耦接且使滑橇托架1270對齊於機架1202上的預期位至。
滑橇托架1270可進一步具有一織機取用埠1273。織機取用埠1273可被包括在機架1202中以提供從織機1263(例如,參照圖12B至12C)透過柱體1260與滑橇托架1270之佈線(例如,電力線佈線或類似者)的通道。滑橇托架1270可進一步具有一滑橇維持器架1275。更特定地,機架1202可包括組件及/或特徵(例如,參照圖13A至13B、圖15A至15C與圖17)以對齊及/或維持滑橇於滑橇空間或機架1202中。以下將更詳細地描述此等滑橇維持器組件。然而,一般來說他們可被配置為提供使一滑橇在滑橇被插入一滑橇空間時對齊。一腰圍持器組件可安裝在個滑橇托架上,且更特定地安裝在各滑橇托架1270的滑橇維持器架1275上。
滑橇托架1270可進一步具有滑橇維持器安裝部1277。一般來說,滑橇維持器安裝部1277可為滑橇維持器架1275的特徵(例如,切除部、結構或類似者)齊備配置為與滑橇維持器1280A與1280B機器式耦接。例如,滑橇維持器(參照圖13A至13B)可具有滑橇架安裝部配置為與一滑橇托架1270的滑橇維持器安裝部機器式耦接以將一滑橇維持器固定到一滑橇架。
圖12E更詳細地例示說明機架1202的一部分。更特定地,描繪柱體與托架之一切除部俯視圖而不描繪機架的其他組件(例如,風扇、MPCM等)以更清楚地例示說明根據一些實施例所實施的一機架的代表性範例。更特定地,機架1202的一較低部被描繪為具有柱體1260A與1260B的部分以及對應於界定了滑橇空間1203-4至1203-6之滑橇托架對的滑橇托架1270A-4至1270A-6與1270B-4至1270B-6。例如滑橇空間1203-4在此圖式中被凸出與點出。此外,織機1223被描繪為在柱體1260B內。
圖13A例示說明一根據一些實施例之範例滑橇維持器1380的一立體圖。在一些範例中,滑橇維持器1380可為圖12A中所描繪的任何滑橇維持器1280的代表。如所描繪者,滑橇維持器1380可具有對齊軌道1381。一般來說,對齊軌道1381可配置為容收將插入一滑橇空間的一滑橇的部分(例如,邊緣部分將財、對應對齊條或類似者),此滑橇空間與滑橇維持器1380相關聯。此外,有一些範例滑橇維持器1380可包括在該對其軌道1381中的附加實體特徵(未顯示)諸如,例如,凹槽、突塊、棘爪或類似者。此等特徵可配置來使一滑橇一旦被(例如,藉由一機械或類似者)座落就會維持一滑橇於對齊軌道1381內。例如對齊軌道1381可具有形成在對齊軌道的入口處的一唇部(lip,未顯示)以維持被操縱進入該滑橇軌道的一滑橇。更進一步地,在一些範例中,滑橇維持器可配置為來促進在一滑橇空間中的一滑橇的自動化及/或機器式安裝與對齊。例如,如所描繪者,入口或前端部較寬以輕鬆將一滑橇插入對齊軌道且接著「引導」該滑橇進入滑橇空間中的所欲位置。
滑橇維持器1380可被配置為與一滑橇托架耦接。圖13B例示說明滑橇維持器耦接於根據一些實施例的範例滑橇托架1370。滑橇托架1370可為圖12A與圖12D至12E中所描繪的滑橇托架1270的代表。如所描繪者,滑橇維持器1380與滑橇托架1370耦接。更特定地,滑橇架安裝部1383與滑橇維持器安裝部1377耦接。換句話說,滑橇架安裝部1383被插入滑橇維持器安裝部1377以使滑橇維持器1380與滑橇托架1370機器式耦接並耦接。
圖14例示說明與根據一些實施例的一滑橇托架耦接的一範例電力模組。一般來說,電力模組可提供給各滑橇空間(參照圖9與12A)。電力模組1420可為任何此等電力模組(例如,電力模組920-1至920-7、電力模組1220-1至1220-6或類似者)的代表。如以上更詳細地描述,電力模組1420可被組配為可轉換AC電力(例如,來自一外部電力源)成為會被作為已插入滑橇空間之滑橇的直流電(DC)電力來源,此滑橇空間與電力模組1420相關聯。在一些實施例中,電力模組1420可組配為可轉換277伏特交流電電力成為12伏特的直流電電力以經由個別MPCM而提供給已插入滑橇。
在一些範例中,電力模組1420可與一機架的一滑橇托架1470耦接,例如,如此圖式中所描繪者。在一些實施例中,電力模組1420可配置為被設置在由一滑橇維持器架1475與滑橇托架1470之滑橇維持器架支撐部1479所形成的空間之內。
圖15A至15C例示說明一滑橇1504的立體圖,該滑橇1504可被插入一機架的一特定滑橇空間之根據一些實施例所實施之一滑橇的代表。更特定地,此等圖式描繪一滑橇與由一機架的滑橇托架所支撐的滑橇維持器耦接以使滑橇1504與一特定滑橇空間對齊。滑橇1504與滑橇空間1503可實施為在此詳述的資料中心中。例如滑橇1504與滑橇空間1503可對應於插入機架902之一滑橇空間903的一滑橇。範例不限訂在此等上下文。
如在此例示性圖式中所描繪,滑橇1504包括機架安裝特徵1585,齊備配置來與滑橇維持器1580A與1580B的對齊軌道1581耦接,對齊軌道158他們自己分別與滑橇托架1570A與1570B耦接。滑橇托架1570A與1570B可接著與一機架耦接,且更精確地為機架柱體(參照圖12A至12D),因此在一機架中形成滑橇空間1504。
在一些範例中,一滑橇的側端(lateral)或側邊可包括機架安裝特徵。例如,圖15B與15C描繪了從滑橇1504的個別側邊形成機架安裝特徵1585。此等機架安裝特徵1585可配置來與在滑橇維持器1580A與1580B中對應的對齊軌道1581分別耦接。
此外,有些範例機架安裝特徵1585可包括各種扣留特徵(未顯示),諸如,例如,凹槽、突塊、棘爪或類似者。此等扣留特徵可被配置來使維持滑橇1504一旦被(例如,藉由一機械或類似者)座落就會維持一滑橇於對齊軌道1581內。例如,機架安裝特徵1585可包括沿著機架安裝特徵1585的一部分形成的一凹陷(未顯示),且組配為與對齊軌道1581的一突塊耦接。
圖16A至16B例示說明根據一些實施例配置的一範例MPCM的立體圖。更特定地,圖16A描繪一例示性機架側MPCM同時圖16B描繪例示性滑橇側MPCM。該注意的事,機架側MPCM與滑橇側MPCM的配置僅是以例示說明的目的提出而非限制。例如,可預見機架側MPCM的特徵可在滑橇側MPCM上實施,且反之亦然。
接著更特定地參照圖16A,描繪一滑橇空間區域的一部分包括安裝在一MPCM托架1667的機架側MPCM 1616R。在一些範例中,所描繪滑橇空間區域可對應於在此詳述的任何滑橇空間,諸如,例如,圖9的滑橇空間903-1至903-7。機架側MPCM1616R可包括一MPCM本體1691R,以及配置來與一滑橇側MPCM(見圖16B)之對應連接器組件耦接的連接器組件。
更特定地,MPCM 1616R具有MPCM插座1693R、光學連接器1695R與電力連接器1697R。在一些範例中,可預見機架側MPCM連接器1616R 為一般母(female)外型連接器。然而,範例不限定在此上下文且機架側MPCM1616R可實施為一公連接器或其他類型的連接器。光學連接器1695R可與光學佈線1622耦接以將MPCM1616R與一光學組構(例如,經由在一機架柱體之一織機的光學佈線或類似者)耦接。電力連接器1697R與電力佈線1625耦接以使MPCM1616R與電源耦接(例如,對應滑橇空間的電力模組或類似者)。
接著更特定地參照圖16B,描繪包括滑橇側MPCM1616S的滑橇的一部分安裝到一滑橇的一基材。在一些範例中,滑橇的該部分可對應置在此詳述的任何滑橇。滑橇側MPCM1616S可包括一MPCM本體1691S以及配置來與一機架側MPCM(見圖16A)之對應連接器組件耦接的連接器組件。
更特定地,MPCM 1616S具有MPCM插座1693S、光學連接器1695S與電力連接器1697S。在一些範例中,可預見滑橇側MPCM連接器一般為公(male)外型連接器。然而,範例不限定在此上下文且滑橇側MPCM 1616S可實施為一母連接器或其他類型的連接器。
圖17例示說明一機架1702的一立體圖,其可為根據一些實施例所實施的一機架的代表。一般來說機架1702可類似於圖12A至12E的機架1202。在圖17所描繪的例示性範例中,機架1702具有從一對滑橇托架1770A與1770B所形成的滑橇空間1703。滑橇維持器1780A與1780B分別與個別滑橇托架1770A與1770B耦接。機架1702額外具有與一MPCM托架1767耦接的MPCM 1716以將MPCM 1716定位在滑橇空間1703中。MPCM 1716可配置來與插入滑橇空間1703中之一滑橇的一對應MPCM耦接。機架1702可具有風扇1719配置來將插入滑橇空間1703中之一滑橇的組件冷卻。更進一步地,機架1702可具有對應於機架1702的各滑橇空間的電力模組1720。電力模組1720可配置來提供電力予插入對應於電力模組1720之一滑橇空間中的一滑橇的組件。
圖18例示說明一機架1802的一立體圖,其可為根據一些實施例所實施之具有一擴充區域的一機架的代表。例如,機架1802可類似於圖9的機架902。更進一步地,機架1802可具有參照圖12A至12E與圖17所描述的機架1202與1702之類似組件。在圖18所描繪的例示性範例中,機架1802具有從一對滑橇托架1870A與1870B所形成的一些滑橇空間(為了明確的原因沒特別點出,然而滑橇空間的配置可參照圖9)。滑橇托架1870A與1870B分別與機架柱體1860A與1860B耦接。更進一步地,機架1802可具有設置在機架柱體1860A與1860B之間的擴充柱體1860C以將一滑橇空間分割成為一主要區域1803A與一擴充區域1803B。
機架1802可額外具有MPCM 1816配置來與插入主要滑橇空間1803A中的一滑橇之一對應MPCM耦接。機架1802進一步具有與擴充柱體1860C耦接的擴充托架1870C。擴充托架可配置來與插入對應主要與擴充滑橇空間1803A與1803B的滑橇及/或擴充滑橇耦接。
機架1802可具有風扇1819配置來將插入主要與擴充滑橇空間1803A與1803B中之一滑橇的組件冷卻。更進一步地,機架1802可具有對應於機架1802的各滑橇空間的電力模組1820。電力模組1820可配置來提供電力予插入對應於電力模組1820之一滑橇空間中的一滑橇的組件。
更進一步地,此例示圖式描繪插入機架1802之各種滑橇空間的一些範例主要與擴充滑橇 。更特定地,主要滑橇1804被描繪為插入一些主要滑橇空間1803A同時擴充滑橇1818被描繪為插入一些擴充滑橇空間1803B。
圖19例示說明一範例資料中心1900,其中一機器1990可操作來安裝、替換及/或維持該資料中心。更特定地,資料中心1900包括多排機架1902,其各可具有一些滑橇1904安裝至該機架1902的滑橇空間內。注意在此描繪的機架1902與滑橇1904可根據一些實施例而實施,諸如,例如如在此詳細描繪的任何機架及/或滑橇。更特定地,機架1902與滑橇1904可配置並組配為可如在此詳述的機器式耦接。例如,機架1902可具有托架與維持器(至少參照圖12A至12E)同時滑橇1904可包括安裝特徵(至少參照圖15A至15C)以促進藉由機器1990之滑橇1904從機架1902自動化或自主性安裝及/或移除。
更進一步地,在一些範例中,一滑橇的個別組件可為由機器1990可替代及/或維持的。例如,一些滑橇1904可包含實體儲存資源(例如SSD或類似者)且機器1990可配置來將SSD從任何數量的此等滑橇1904安裝及移除。範例不限定在此上下文。
機器1990可組配(例如,尺寸化、規格化或類似者)為可沿著取用通道1911行動(travel)以取用在資料中心中1900的機架1902,且更特定地為滑橇1904。機器1990可具有多向性輪1995,其係配置為可促進機器在一些方向上的移動及/或行動。注意機器1990被描述為包括4個多向性輪1995F。然而,可預見機器1990實施為具有多於或少於4個多向性輪的範例。例如,機器可實施為具有6個多向性輪或者3個多向性輪。更進一步地,如在此所使用,多向性輪1995可組配為可沿著多於一個軸旋轉。換句話說,多向性輪1995被組配為可將機器以多於一個軸而推進。例如,如在此圖式中所描繪者,多向性輪1995被組配為可將機器沿著第一軸1995A與一第二軸1995B推進。在此例示中,第一與第二軸為與彼此正交。更進一步地,雖然未顯示出來,多向性輪1995可具有驅動器、馬達、幫普、螺絲或類似者,其等被配置來使多向性輪1995的組件移動且將機器1990沿著軸1995A及/或1995B推進。範例不限定在此上下文。
在一些範例中,機器1990可由一操作者遠端地控制,例如一人類操作者。在一些範例中,機器1990可被程式化來自動化及/或部分自動化地操作。這在以下將更詳細地例如參照圖20至22而描述。
機器1990可具有機器式手臂1991與一組件儲存架1993。一般來說,組件儲存架1993可配置來容裝及/或儲存用於資料中心1990的組件,諸如,例如滑橇1904。在一些範例中,組件儲存架1993可配置來容收滑橇1904的組件(例如,SSD或類似者)。機器式手臂1991可包括特徵,該特徵可將滑橇1904從組件儲存架1993移動到個別機架1902且反之亦然。例如,機器式手臂1991可包括特徵,該特徵可將挑選叉1991A配置來操縱一滑橇。挑選叉1991A可被組配為可套接及/或鉸接於由滑塊1991B所形成的一軸。在一例示性範例中,挑選叉1991A可被插入一滑橇1904底部;升高以支撐一滑橇且將滑橇從組件儲存架1993移除;且將該滑橇插入在資料中心1990中的一機架1902的一滑橇空間中。更進一步地,雖然未顯示,機器式手臂1991可包括做動器、馬達、幫普、螺絲或類似者,其配置來使機器式手臂1991如在此所描述地沿著軸移動。例如,機器式手臂1991可被液壓作動且可組配為具有一液壓幫普、儲存槽以及活塞,其等被配置來移動挑選叉1991A。如另一個範例,機器式手臂1991可為機器式作動且可被組配為具有一螺絲、電子馬達及螺母設備,其被配置來移動挑選叉1991A。
機器1990可具有一電源與控制單元1997。圖20例示說明一範例機器2000的一方塊圖。在一些範例中,機器2000可實施為圖19的機器1990。在圖20中所描繪的例示性範例中,機器2000可具有電源/控制單元2097,其包括一控制器2040、平台組件2050、通訊介面2060與天線2061及電源2070。更進一步地,機器2000可具有多向性輪2095(例如,類似多向性輪1995)、一機器式手臂2019(例如,類似機器式手臂1991)以及一組件儲存架2093(例如,類似組件儲存架1993)。
一般來說,電源2070可為任何電源配置來提供電力給機器2000的系統及/或子系統。在一些範例中,電源2070可為可充電式。例如,電源可為鋰式可充電電池。在其他範例中,電源可為一燃料電池、例如電源可為一丙烷或天然氣氣瓶。範例不限定在此上下文。
控制器2040可為一處理器組漸獲處理器組件與其他電路的組合,諸如,例如可程式化邏輯組件或類似者。在一些範例中,控制器2040可包含會由一處理器組件執行的指令以致使該機器如所欲操作。控制器2040可具有一些組件,配置為可控制機器2000的操作,例如,以促進在一資料中心中的滑橇以及來自滑橇的組件之自主性組配、維護、安裝及/或移除。
平台組件2050可包括任何的各種組件以促進使用者與機器之間的互動、機器與環境的互動(例如,一資料中心、機架、滑橇、實體資源或類似者)。例如平台組件2050可包括一影像攝錄器、一掃描器、一雷達偵測器、一揚聲器、一顯示器、輸入鈕、操縱桿、鍵盤、感測器。
一般來說,通訊介面2060與天線2061可為將機器與在一資料中心中的實體通訊式耦接的任何各種無線介面。例如,通訊介面2060與天線2061可配置來與一實體基礎架構管理框架耦接。更特定地,通訊介面2060與天線2061可配置為與一實體基礎架構管理框架的一POD管理者通訊式耦接,諸如圖11的實體基礎架構管理框架1150A。
作為另一範例,通訊介面2060與天線2061可被配置為與一機架通訊式耦接,諸如,例如具有與一機架耦接之各種信標或感測器的一機架。做為一特定範例,通訊介面2060與天線2061可被配置來與和在一資料中心中的一機架、資料中心中的一滑橇或類似者耦接的一RFID信標及/或感測器通訊式耦接。
在一些範例中,通訊介面2060與天線2061可被配置來經由任何各種通訊標準與技術,諸如,無線標準(例如,IEEE 802.11標準)、蜂巢式標準(例如,1G、3G、4G、LTE、LTEA、5G或類似者)、同級間標準(peer-to-peer,例如,藍芽、紫蜂、NFC、RFID或類似者而耦接。
在此圖式中所描繪的例示性範例中,控制器2040具有一命令組件2042、一ID/定位組件2044、一移動控制組件2046與一手臂控制組件2048。一般來說,另命組件2042可配置為可判定用於機器2042的一操作。例如,命令組件2042可接收一資訊元件以包括來自一資料中心的一pod管理者之一命令的指示,該機器2000在資料中心中運作。範例命令可包括,安裝一特定類型的滑橇於一規定(specfied)滑橇空間中、從一規定滑橇空間移除一特定滑橇、從一規定滑橇替換一特定組件或類似者。在一些範例中,命令組件2042可接收資料元件以包括各種遙測及/或操作度量、統計、資料點或與在資料中心中的實體資源之操作相關之類似者的指示。命令組件2042可自主性判定用於機器2000的操作,例如接於一所接收遙測資料。
ID/定位組件2044可組配為可判定在一資料中心中的該機器2000的一地理位置且亦可識別在該資料中心內的特定機架與滑橇空間。例如,ID/定位組件2044可與提供在平台組件2050內的全球定位單元感測器耦接且判定在一資料中心中的該機器的一位置。作為另一範例,ID/定位組件2044可與通訊介面2060耦接且可例如基於無線網路訊號三角定位技術而判定在一資料中心中的該機器的位置。在另一範例中,ID/定位組件2044可維持,例如,在一計算機可讀記憶體中,一資料中心的地圖且可基於該地圖在該機器於該資料中心中行動時更新該機器2000的位置。在一些範例中,ID/定位組件2044可與一掃描器(例如,一維條碼或類似者)耦接且接收代表由該掃描器所掃描之條碼的訊號。在此等範例中,條碼可實施在資料中心的軌道、柱體、托架及/或滑橇上,且此等訊號可由ID/定位組件2044所使用來判定在資料中心中的該機器的一位及/或識別該資料中心的特定機架、滑橇空間及/或滑橇。
移動控制組件2046可組配為可發送控制訊號至多向性輪2095以啟始該機器在一資料中心中的移動。更精確地,移動控制組件2046可發送控制訊號至與該多向性輪2095耦接的馬達及/或作動器。在一些範例中,移動控制組件2046可與該命令組件2042耦接且可基於由該命令組件2042所判定(或接收)的操作而判定該機器的移動。
手臂控制組件2048可組配為可發送控制訊號至機器式手臂2091以啟始該機器式手臂的移動。更精確地,手臂控制組件2048可發送控制訊號至耦接至該機器式手臂2091的馬達及/或做動器。在一些範例中,手臂控制組件2048可與命令組件2042耦接且可基於由該命令組件2042所判定(或接收)的操作而判定該機器式手臂2091的移動。
在一些範例中,移動控制組件2046與控制組件2048可與通訊介面2060與無線電2061耦接且可從人類操作者接收將要作出之移動的指示。換句話說,在一些範例中,機器2000可具有手動與自主性模式。在手動模式中,一人類操作者可遠端空至該機器,而在自主模式中,機器可例如由pod管理者藉由在控制器2040或類似者中的邏輯組件所實施之一預先組配維護常式來控制。
圖21例示說明一邏輯流程的範例。此圖式描繪邏輯流程2100。邏輯流程2100可為由在此描述的一或多個邏輯、特徵或裝置,諸如,例如,框架1150A、機器1990、機器2000或類似者所執行的一些或所有操作的代表。更特定地,邏輯流程2100可由一自動化系統(例如,機器)所實施以如在此所詳述者而操控在一資料中心中的實體資源。例如,邏輯流程2100可實施來操控來自在一資料中心中之一機架的一滑橇(例如,安裝、移除、進行維護操作或類似者)。雖然根據一些實施例,邏輯流程2100可在任何機架上實施,圖1802的機架1802被用來當作描述邏輯流程2100的一參考。然而,這僅是為了方便且明瞭地表示而非限制。
如圖21之例示性範例中所描繪者,邏輯流程2100可從方塊2110開始。在方塊2110可接收「接收一命令以包括實體地操控在一資料中心中的複數個實體資源中之一者的一指示」的一命令,該命令可包括實體地操控在一資料中心中的複數個實體資源中之一者的一指示。例如,機器2000的命令組件2042可接收一命令以包括實體地操控在機架1802內之滑橇1804的實體資源中之一者的指示。例如,命令組件2042可接收一命令以包括移除滑橇1804中之一者且以類似類型的滑橇、不同類型的滑橇替換該滑橇、進行滑橇之維護操作以及替換滑橇或類似者的一指示。
接著到方塊2120「發送一控制訊號至一移動控制器以致使一自主性設備可移動靠近複數個實體資源中之一者」可發送一控制訊號至一移動控制器,該控制訊號可致使一自主性設備(例如,機器或類似者)可移動靠近複數個實體資源以被實體地操控。例如命令組件2042可發送一控制訊號至移動控制組件2046以致使移動控制組件2046作動多向性輪因而使機器2000移動靠近在一資料中心中的一實體資源。例如,移動控制組件2046可作動多向性輪2095因而使機器2000在一資料中心中橫跨路徑(例如,圖3之取用路徑311或類似者)以移動到靠近在該資料中心(例如,一機架或類似者)中的一實體資源。
接著繼續到方塊2130「發送一控制訊號至一機器式操縱裝置以致使該機器式操縱裝置可實體地操縱複數個實體資源中之一者」一控制訊號致使一機器式操縱裝置實體地操縱一資料中心的一實體資源。例如,命令組件2042可發送一控制訊號到手臂控制組件2048以致使手臂控制組件2048作動機器式手臂2091以致使機器式手臂2091實體地操縱一資料中心的一實體資源。例如,手臂控制組件2048可致使機器式手臂2091移除滑橇1804中之一者且以一類似類型滑橇、不同類型花橋替換該滑橇、進行滑橇的維護操作以及替換滑橇或類似者。做為另一範例,手臂控制組件2048可致使機器式手臂2091可從一滑橇(例如,SSD驅動機或類似者)移除一實體資源而不用將該滑橇從一機架移除。
圖22例示說明一邏輯流程的一範例。此圖是描繪邏輯流程2200。邏輯流程2200可為由在此描述一或多個邏輯、特徵或裝置,諸如,例如,框架1150A、機器1900、機器2000或類似者所執行的一些或所有操作的代表。更特定地,邏輯流程2200可由一自動化系統(例如,機器)所實施以如在此所詳述者而操縱在一資料中心中的實體資源。例如,邏輯流程2200可實施來判定在一資料中心中的實體資源以實體地以自主性方式操縱。
如圖22之例示性範例中所描繪者,邏輯流程2200可從方塊2210開始。在方塊2210可接收「接收一資訊元件以包括用於複數個實體資源中之遙測度量的一指示」的一資訊元件,該資訊元件可包括用於一資料中心之複數個實體資源中之遙測度量的一指示。例如,機器2000的命令組件2042可接收一資訊元件(例如,來自一pod管理者、來自一資料中心的機架或一資料中心的滑橇或類似者)以包括用於一資料中心之實體資源的遙測度量的指示。例如,命令組件2042可接收用於一資料中心之實體資源的遙測度量的指示。
接著到方塊2220「判定一維護操作以基於遙測度量而操縱複數個實體資源中之一者」一維護操作可包括實體地操縱資料中心中複數個實體資源中之一者。例如,命令組件2042可判定一操作(例如,移除滑橇、替換滑橇、維護滑橇或類似者)包括實體地操作一資料中心的一實體資源。作為另一範例,框架1150A可判定一操作(例如,移除滑橇、替換滑橇、維護滑橇或類似者)包括實體地操縱一資料中心的一實體資源。
接著到方塊2230,「啟始一命令以包括用於自主性裝置以進行維護操作的一指示」一命令可被啟始包括用於自主性裝置(例如,機器1990、機器2000或類似者)以進行維護操作的一指示。例如,框架1150A可發送一命令至機器2000以包括用於機器2000的一指示以實體地操縱一資料中心的實體資源。作為另一範例,可命令組件2042可自主性地啟始維護操作。
圖23例示說明一儲存媒體2300的一範例。儲存媒體2300可包含一種製品。在一些範例中,儲存媒體2300可包括任何非暫時性電腦可讀媒體或機器可讀媒體,諸如光學、磁性或半導體儲存器。儲存媒體2300可儲存各種類型的電腦可執行指令,諸如可實施邏輯流程2100的指令、可實施邏輯流程2200的指令或可實施根據一些實施例的邏輯流程的指令。電腦可讀或機器可讀儲存媒體的範例可包括任何可儲存電子資料的實體媒體,包括依電性記憶體或非依電性記憶體、可移除或不可移除記憶體、可抹除或不可抹除記憶體、可寫入或重寫入記憶體等等。電腦可執行指令的範例可包括任何合適類型的代碼,諸如源代碼、編譯碼、解譯碼、可執行碼、靜態碼、動態碼、物件導向碼、視覺碼與類似者。範例不限定在此上下文。
圖24例示說明一範例計算平台3000。在一些範例中,如在此圖式中所示,計算平台3000可包括一處理組件3040、其他平台組件或通訊介面3060。根據一些範例,計算平台3000可在一計算裝置中實施,計算裝置諸如在一系統中的伺服器,系統諸如支援用於管理如以上所提及之可組態計算資源之管理器或控制器的一資料中心或伺服器場。
根據一些範例,處理組件3040可包括在此描述之硬體或邏輯,諸如,控制單元1997、控制單元2097或儲存媒體2300。處理組件3040可包括各種硬體元件、軟體元件或兩者之組合。硬體元件的範例可包括裝置、邏輯裝置、組件、處理器、微處理器、電路、處理器電路、電路元件(例如電晶體、電阻、電容、電感或等等)積體電路、特定應用積體電路(ASIC)、可程式化邏輯裝置(PLD)數位訊號處理器(DSP)、現場可程式閘陣列(FPGA)、記憶體單元、邏輯閘、暫存器、半導體裝置、晶片、微晶片、晶片組等等。軟體元件的範例可包括軟體組件、程式、應用、電腦程式、應用程式、裝置驅動、系統程式、軟體開發程式、機器程式、作業系統軟體、中間軟體、韌體、軟體模組、常式、子常式、功能、方法、程序、軟體介面、應用程式介面(API)、指令集、計算碼、電腦碼、碼段、電腦碼段、字元、數值、符號或其等之任何組合。判定一範例是使用硬體元件及/或軟體元件可根據任何數量的因素而變化,諸如所預計算率、功率層級、耐熱姓、處理週期預算、輸入資料率、輸出資料率、記憶體資源、資料匯流排速度與根據一給定範例的需要之其他設計或性能限制。
在一些範例中,其他平台組件3050可包括常見計算元件,諸如一或多個處理器、多核心處理器、協同處理器、記憶體單元、晶片組、控制器、周邊、介面、振盪器、計時裝置、視訊卡、音訊卡、多媒體輸入/輸出(I/O)組件(例如,數位顯示)、電力供應器以及等等。記憶體單元的範例可包括但不限定在以一或多個較高速記憶體單元的形式之各種類型的電腦可讀與機器可讀儲存媒體, 諸如僅讀記憶體(ROM)、隨機存取記憶體(RAM)、動態RAM(DRAM)、雙被資料率DRAM(DDRAM)、同步DRAM(SDRAM)、靜態RAM(SRAM)、可程式化ROM(PROM)、可抹除程式化ROM(EPROM)、電子可抹除ROM(EEPROM)、快閃記憶體、聚合記憶體諸如鐵電聚合記憶體、雙向(ovonic)記憶體、相變或鐵電記憶體、矽氧氮氧矽(SONOS)記憶體、磁卡或光卡、裝置陣列諸如獨立磁碟冗餘陣列(RAID)裝置、固態記憶體裝置(例如,USB記憶體)、固態硬碟驅動機(SSD)以及適合用來儲存資訊的任何其他類型之儲存媒體。
在一些範例中通訊介面3060可包括邏輯及/或特徵以支援通訊介面。對於此等範例,通訊介面3060可包括根據各種通訊協定或標準來操作以透過直接通訊鏈路或網路通訊鏈路來通訊的一或多個通訊介面。直接通訊可經由在一或多個工業標準(包括後代與變異)諸如與快速PCI規格中所描述之通訊協定或標準之使用而出現。網路通訊可經由諸如在由電子電機工程協會(IEEE)所頒佈之一或多個乙太標準中所描述的通訊協定或標準之使用而出現。例如,一個此等乙太標準可包括IEEE802.3 2012在2012年十二月所發佈載波感測多重存取碰撞檢測(CSMA/CD)存取方法與實體層規格(之後稱為IEEE802.3)。網路通訊亦可根據一或多個開流(OpenFlow)規格,諸如開流硬體摘要化API規格而出現。網路通訊亦可根據在2015年三月所發佈之無限頻寬架構規格第1卷1.3版(「無限頻寬架構規格」)。
計算平台3000可為一計算裝置的一部分,計算裝置可為,例如,一伺服器、一伺服器陣列或伺服器場、網站伺服器、網路伺服器、網際網路伺服器、工作站、迷你電腦、主機電腦、超級電腦、網路裝置(appliance)、網站裝置、分散式計算系統、多處理器系統、處理器式系統或其等之組合。據此,計算平台3000在此所描述之功能及/或特定組態可如合適的所需而被包括在計算平台3000的各種實施例中或者被省略。
計算平台3000的組件與特徵可使用下列各者的任何組合來實施,離散電路、ASIC、邏輯閘及/或單晶片架構。更進一步地,計算平台3000的特徵可使用為控制器、程式化邏輯陣列及/或微處理器或前述者之任何恰當的組合來實施。應注意的事硬體、韌體及/或軟體元件可為聯合或獨立地被指涉為「邏輯」或「電路」。
應當理解的是顯示於此圖式之在方塊圖中範例性計算平台3000可代表許多潛在實施的功能性描述性範例中之一者。據此,在附加圖式中所描繪的分割、省略或含括方塊功能不會被推論為用於實施此等功能的硬體組件、電路、軟體及/或元件將會必要地在實施例中分割、省略或含括。
至少一範例的一或多個態樣可由儲存在至少一機器可讀媒體中的代表性指令來實施,機器可讀媒體代表在處理器中的各種邏輯,當其由一機器、計算裝置或系統讀取時,致使該機器、計算裝置或系統組織邏輯以進行在此描述的技術。此等代表被稱為「IP核心」可儲存在一實體、機器可讀媒體內且供應給各種消費者或製造設施以載入實際做出邏輯或處理器的製造機器。
各種範例可使用硬體元件、軟體元件或兩者之組合來實施。在一些範例中,硬體元件可包括裝置、組件、處理器、微處理器、電路、電路元件(例如,電晶體、電阻、電容、電感或等等)積體電路、特定應用積體電路(ASIC)、可程式化邏輯裝置(PLD)數位訊號處理器(DSP)、現場可程式閘陣列(FPGA)、記憶體單元、邏輯閘、暫存器、半導體裝置、晶片、微晶片、晶片組等等。在一些範例中,軟體元件的範例可包括軟體組件、程式、應用、電腦程式、應用程式、系統程式、機器程式、作業系統軟體、中間軟體、韌體、軟體模組、常式、子常式、功能、方法、程序、軟體介面、應用程式介面(API)、指令集、計算碼、電腦碼、碼段、電腦碼段、字元、數值、符號或其等之任何組合。判定一範例是使用硬體元件及/或軟體元件可根據任何數量的因素而變化,諸如所欲計算率、功率層級、耐熱性、處理週期預算、輸入資料率、輸出資料率、記憶體資源、資料匯流排速度與根據一給定範例的需要之其他設計或性能限制。
一些範例可包括一種製品或至少一電腦可讀媒體。電腦可讀媒體可包括用於儲存邏輯的一非暫時性電腦可讀媒體。在一些範例中,非暫時性儲存媒體可包括能夠儲存電子資料的一或多種類型的電腦可讀儲存媒體,包括依電性記憶體或非依電性記憶體等等。在一些範例中,邏輯可包括各種軟體元件,諸如軟體組件、程式、應用程式、電腦程式、應用程式、系統程式、機器程式、作業系統軟體、中間軟體、韌體、軟體模組、常式、子常式、功能、方法、程序、軟體介面、AP)、指令集、計算碼、電腦碼、碼段、電腦碼段、字元、數值、符號或其等之任何組合。
根據一些範例,電腦可讀媒體可包括一可儲存或維持指令在內的非暫時性儲存媒體,當該等指令獸醫機器、計算裝置或系統執行時致使該機器、計算裝置或系統可進行根據所描述範例中的方法及/或操作。指令可包括任何合適類型的代碼,諸如源代碼、編譯碼、解譯碼、可執行碼、靜態碼、動態碼與類似者。指令可根據預先定義電腦語言、方式或語法來實施,以指示一機器、計算裝置、或系統進行特定功能。該等指令可使用任何合適的高階、低階、物件導向、視覺、編譯及/或解譯程式語言來實施。
可能使用「在一範例中」或「一範例」連同其之衍生物的表達來描述一些範例。此等用語代表連同該範例所描述的一特定特徵、結構或特性被包括在至少一範例中。在此說明書各處中出現的片語「在一範例中」並非必要指涉同一範例。
可能會使用「耦接」與「連接」及其衍生物的表達來描述一些範例。此等此等用語並非必要意指彼此的同義字。例如用字「連接」及/或「耦接」的描述可能指示二或更多元件是與彼此直接實體接觸或電器接觸。然而,用字「耦接」亦可代表二或更多元件事與彼此沒有直接接觸但仍然與彼此協同或互動。
應當強調的是,本揭露的摘要是提供來與37 C.F.R.1.72(b)節相符,需要摘要可使得讀者快速地確定本技術揭露的本質。應當理解的是其將不會被用作闡述或限制申請專利範圍或其意義而提交。此外,在以上的詳細說明中可以看到各種特徵被群集在一單一範例中以用於精簡此揭露。此揭露的方法將不會被闡述為所請求範例需要比在各請求項中所提及者更多的特徵之一意圖的反映。相反的,以下的請求項反映發明標的存在於較一單一揭露範例中的所有特徵更少的特徵內。因此,以下的請求項在此併入詳細說明,各請求項獨立代表做為一分離的範例。在所附加的請求項中,「包括」與「在其中」之用字是用來分別等效於純英文「包含」與「其中」而被使用。更進一步地,用字「第一」、「第二」、「第三」等等僅是用來做為標籤且不應意欲在對該等物件上施加數量的要求。
雖然標的以特定結構特徵及/或方法行為的語言描述,可以理解在附加申請專利範圍中所定義的標的不必要限定在以上所描述的特定特徵或動作。相反地,以上所描述的特定特徵與動作僅是實施申請專利範圍時之範例形式而揭露。
範例1. 一資料中心機架,其包含:一第一柱體與一第二柱體;與複數對滑橇托架,來自該等複數對滑橇托架中之各者的一第一滑橇托架與該第一柱體耦接,來自該等複數對滑橇托架中之各者的一第二滑橇托架與該第二柱體耦接,該等複數對滑橇托架各界定可容納一滑橇的一滑橇空間。
範例2. 如範例1的資料中心機架,該滑橇可容裝至少一實體資源。
範例3. 如範例1的資料中心機架,該等複數對滑橇之各者界定用於容收一滑橇的一滑橇空間。
範例4. 如範例3的資料中心機架,其包含複數對滑橇維持器,來自該等複數對滑橇維持器中之各者的一第一滑橇維持器與該等複數對滑橇托架中之各別一者的該第一滑橇托架耦接,來自該等複數對滑橇維持器中之各者的一第二滑橇維持器與該等複數對滑橇托架中之各別一者的該第二滑橇托架耦接,各個該等複數對滑橇維持器係配置為與插入由該等複數對滑橇托架中與該對滑橇維持器耦接之一一者所界定的一滑橇空間中的一滑橇耦接。
範例5. 如範例4的資料中心機架,該等複數對滑橇維持器中之各者係配置為與自主性地插入由該等複數對滑橇托架中與該對滑橇維持器耦接之一者所界定之該滑橇空間的一滑橇耦接。
範例6. 如範例4的資料中心機架,該等複數對滑橇維持器中之各者與該等複數對滑橇托架中之各別一者整合。
範例7. 如範例4的資料中心機架,其中,該滑橇可藉由一機器插入該滑橇空間。
範例8. 如範例3的資料中心機架,其包含複數個多用途連接器模組(MPCM),該等複數個MPCM中之各者係設置在該等複數個滑橇空間中之各別一者內。
範例9. 如範例8的資料中心機架,其包含與該第一柱體及該第二柱體耦接的複數個MPCM托架,該等複數個MPCM托架與該等MPCM中之相應者耦接以將該等複數個MPCM以一定向固定在該滑橇空間中。
範例10. 如範例8的資料中心機架,其包含一互連織機設置在該第一柱體或該第二柱體中之至少一者內;以及複數條光學互連電纜,該等複數條光學互連電纜各與該等複數個MPCM的一各別MPCM耦接且被規劃路徑至該互連織機。
範例11. 如範例10的資料中心機架,其中,該等複數條互連電纜中之各者至少部分被設置在該互連織機內。
範例12. 如範例11的資料中心機架,該等複數條互連電纜之各者係經由以該第一或第二柱體中至少一者所界定之複數個滑橇空間電纜取用埠而規劃路徑至該互連織機。
範例13. 如範例11的資料中心機架,其包含複數個電力模組,各個該等複數個電力模組係組配為可供應電力予一各別滑橇空間中的一滑橇。
範例14. 如範例13的資料中心機架,該等複數個電力模組之各者係與該等複數對滑橇托架中之一各別第一者耦接。
範例15. 如範例14的資料中心機架,其包含複數條電子電力線,該等複數條電子電練現與該等複數個MPCM之各別一者及一各別電力模組耦接。
範例16. 如範例15的資料中心機架,該等複數個電力模組之各者係組配為可提供交流(AC)電力來源並提供直流(DC)電力。
範例17. 如範例15的資料中心機架,該等複數個MPCM之各者包含配置來與一滑橇側MPCM耦接的插座。
範例18. 如範例17的資料中心機架,該等複數個MPCM之各者包含:一光學連接器,其係配置為與該滑橇側MPCM的一光學連接器耦接以使該滑橇側MPCM與一光學組構耦接;以及一電力連接器,其係配置為與該滑橇側MPCM的一電力連接器耦接以使該滑橇側MPCM與該等複數個電力模組中之一一者耦接。
範例19. 如範例1至18任一者的資料中心機架,其包含:一擴充柱體,其係設置在該第一柱體與該第二柱體之間;以及與該擴充柱體耦接的複數個擴充滑橇托架,該等複數個擴充滑橇托架之各者對應於該等複數對滑橇托架中之一一者,該等複數個擴充滑橇托架之各者與所對應之複數對滑橇托架中之一者界定出一擴充滑橇空間以容納容裝有至少一個實體資源的一擴充滑橇。
範例20. 如範例3至18任一者的資料中心機架,其包含:插入該等滑橇空間中之一一者的一滑橇。
範例21. 如範例20的資料中心機架,該滑橇可容裝至少一實體資源。
範例22. 如範例9至18任一者的資料中心機架,該等複數個MPCM之各者配置來使插入一滑橇空間中的一滑橇與一資料中心的一光學組構耦接。
範例23. 如範例5的資料中心機架,該等複數對滑橇維持器之各者包含一對齊軌道,該對其軌道設置來與該滑橇的該機架安裝特徵機器式耦接以促進使該滑橇自主性插入由該等複數對滑橇托架中與該對滑橇維持器所耦接之一者所界定的該滑橇空間內。
範例24. 如範例23的資料中心機架,該對齊軌道配置為與該滑橇的該機架安裝特徵機械性解耦接以促進該滑橇從由該等複數對滑橇托架中與該對滑橇維持器所耦接之一者所界定的該滑橇空間自主化移除。
範例25. 如範例1至18任一者的資料中心機架,其中該機架不包含該第一柱體與第二柱體以外更多的柱體。
範例26. 如範例1至18任一者的資料中心機架,其中,該第一柱體與該第二柱體係設置在該機架的後角落處以界定該機架的一後平面。
範例27. 如範例26的資料中心機架,其中,該等複數對滑橇托架中之各者係與該第一柱體及該第二柱體耦接以界定該機架的側平面。
範例28. 如範例27的資料中心機架,其中該側平面為露天的。
範例29. 如範例28的資料中心機架,其中,該機架不具有覆蓋該側平面的一機殼。
範例30. 如範例3至18任一者的資料中心機架,其中,該滑橇空間較一傳統機架單元大。
範例31. 如範例3至18任一者的資料中心機架,其中,該滑橇空間非一傳統機架單元的整數倍。
範例32. 如範例3至18任一者的資料中心機架,其中,該滑橇空間非1.75吋的整數倍。
範例33. 一系統,其包含:用於一資料中心的一滑橇,該滑橇包含一機架安裝特徵,與至少一個實體資源;以及該資料中心的一機架,該機架包含:一第一柱體與一第二柱體,與複數對滑橇托架,來自該等複數對滑橇托架中之各者的一第一滑橇托架與該第一柱體耦接,來自該等複數對滑橇托架中之各者的一第二滑橇托架與該第二柱體耦接,該等複數對滑橇托架之各者界定可容納一滑橇的一滑橇空間。
範例34. 如範例33的系統,該機架包含複數對滑橇維持器,來自該等複數對滑橇維持器中之各者的一第一滑橇維持器與該等複數對滑橇托架中之各別一者的該第一滑橇托架耦接,來自該等複數對滑橇維持器中之各者的一第二滑橇維持器與該等複數對滑橇托架中之各別一者的該第二滑橇托架耦接,該等複數對滑橇維持器之各者係配置為與該滑橇耦接。
範例35. 如範例34的系統,該等複數對滑橇維持器中之各者係配置為與該滑橇自主性耦接。
範例36. 如範例34的系統,該等複數對滑橇維持器中之各者係與該等複數對滑橇托架中之各別一者整合。
範例37. 如範例34的系統,其中,該滑橇可藉由一機器插入該滑橇空間。
範例38. 如範例33的系統,該機架包含複數個多用途連接器模組(MPCM),該等複數個MPCM之各者係設置在該等複數個滑橇空間中之各別一者中。
範例39. 如範例38的系統,該機架包含與該第一柱體及該第二柱體耦接的複數個MPCM托架,該等複數個MPCM托架與該等MPCM中之相應者耦接以將該等複數個MPCM以一定向固定在該滑橇空間中。
範例40. 如範例38的系統,該機架包含:一互連織機設置在該第一柱體或該第二柱體中之至少一者內;以及複數條光學互連電纜,該等複數條光學互連電纜各與該等複數個MPCM的一各別MPCM耦接且被規劃路徑至該互連織機。
範例41. 如範例40的系統, 該等複數條電纜中之各者係經由以該第一或第二柱體中至少一者所界定之複數個滑橇空間電纜取用埠而規劃路徑至該互連織機。
範例42. 如範例40的系統,其包含複數個電力模組,各個該等複數個電力模組係組配為可供應電力予一各別滑橇空間中的一滑橇。
範例43. 如範例42的系統,該等複數個電力模組之各者係與該等複數對滑橇托架中之一各別第一者耦接。
範例44. 如範例43的系統,其包含複數條電子電力線,該等複數條電子電練現與該等複數個MPCM之各別一者及一各別電力模組耦接。
範例45. 如範例44的系統,該等複數個電力模組之各者係組配為可提供交流(AC)電力來源並提供直流(DC)電力。
範例46. 如範例45的系統,該滑橇包含一滑橇側MPCM組配為與該等複數個機架側MPCM耦接。
範例47. 如範例46的系統,該等複數個MPCM之各者包含配置來與一滑橇側MPCM耦接的插座。
範例48. 如範例47的系統,該等複數個MPCM之各者包含:一光學連接器,其係配置為與該滑橇側MPCM的一光學連接器耦接以使該滑橇側MPCM與一光學組構耦接;以及一電力連接器,其係配置為與該滑橇側MPCM的一電力連接器耦接以使該滑橇側MPCM與該等複數個電力模組中之一一者耦接。
範例49. 如範例33至48中任一者的系統,其包含:一擴充柱體,其係設置在該第一柱體與該第二柱體之間;以及與該擴充柱體耦接的複數個擴充滑橇托架,該等複數個擴充滑橇托架之各者對應於該等複數對滑橇托架中之一一者,該等複數個擴充滑橇托架之各者與所對應之複數對滑橇托架中之一者界定出一擴充滑橇空間以容納容裝有至少一個實體資源的一擴充滑橇。
範例50. 如範例49的系統,其包含一擴充滑橇插入該擴充滑橇空間中之一者。
範例51. 如範例50的系統,該擴充滑橇包含至少一補充實體資源。
範例52. 如範例51的系統,其包含使該至少一實體資源與該至少一補充實體資源耦接的一光學互連件。
範例53. 如範例34的系統,該滑橇包含至少一機架安裝特徵配置來與該機架耦接。
範例54. 如範例53的系統,該等複數對滑橇維持器之各者包含一對齊軌道,該對其軌道設置來與該滑橇的該機架安裝特徵機器式耦接以促進使該滑橇自主性插入由該等複數對滑橇托架中與該對滑橇維持器所耦接之一者所界定的該滑橇空間內。
範例55. 如範例54的系統,該對齊軌道配置為與該滑橇的該機架安裝特徵機械性解耦接以促進該滑橇從由該等複數對滑橇托架中與該對滑橇維持器所耦接之一者所界定的該滑橇空間自主化移除。
範例56. 如範例33的系統,其包含一光學組構互連以將該滑橇的該至少一實體資源與一光學組構耦接。
範例57. 如範例40的系統,其中該等複數條光學互連電纜至少部分設置在該互連織機內。
範例58. 如範例33至48任一者的系統,其中,該機架不包含該第一柱體與第二柱體以外更多的柱體。
範例59. 如範例33至48任一者的系統,其中,該第一柱體與該第二柱體係設置在該機架的後角落處以界定該機架的一後平面。
範例60. 如範例59的系統,其中,該等複數對滑橇托架中之各者係與該第一柱體及該第二柱體耦接以界定該機架的側平面。
範例61. 如範例60的系統,其中,其中該側平面為露天的。
範例62. 如範例61的系統,其中,該機架不具有覆蓋該側平面的一機殼。
範例63. 如範例33至48任一者的系統,其中,該滑橇空間較一傳統機架單元大。
範例64. 如範例33至48任一者的系統,其中,該滑橇空間非一傳統機架單元的整數倍。
範例65. 如範例33至48任一者的系統,其中,該滑橇空間非1.75吋的整數倍。
範例68.一種方法,其包含下列步驟:發送一移動控制訊號到一機器,該移動控制包括使該機器移動到靠近一資料中心中之一滑橇的一指示;以及發送一操縱控制訊號至該機器,該操縱控制訊號包括使該機器實體地操縱該滑橇的一指示。
範例69. 如範例68的方法,其包含接收包括有實體地操縱該等複數個實體資源中之一者之一指示的一命令;
範例70. 如範例68的方法,其包含:在該機器處接收該命令;以及藉由該機器之一控制器產生該移動控制訊號與該操縱控制訊號。
範例71. 如範例70的方法,該實體資源係容裝在該資料中心之一機架的一滑橇上,該命令包含從該機架移除該滑橇的一指示。
範例72. 如範例71的方法,該命令包含將該滑橇從該機架移除且以容裝有一實體資源的一滑橇來替換所移除滑橇的一指示,該實體資源與該等複數個實體資源中之一者為相同類型。
範例73. 如範例72的方法,其包含藉由一機器將該滑橇從該機架的一滑橇空間移除。
範例74. 如範例73的方法,其包含藉由一機器將一替換滑橇插入該機架的該滑橇空間。
範例75. 如範例59至72任一者的方法,該機架包含:一第一柱體與一第二柱體;與複數對滑橇托架,來自該等複數對滑橇托架中之各者的一第一滑橇托架與該第一柱體耦接,來自該等複數對滑橇托架中之各者的一第二滑橇托架與該第二柱體耦接,該等複數對滑橇托架各界定可容納一滑橇的一滑橇空間。
範例76. 如範例75的方法,該滑橇可容裝至少一實體資源。
範例77. 如範例75的方法,該機架包含複數對滑橇維持器,來自該等複數對滑橇維持器中之各者的一第一滑橇維持器與該等複數對滑橇托架中之各別一者的該第一滑橇托架耦接,來自該等複數對滑橇維持器中之各者的一第二滑橇維持器與該等複數對滑橇托架中之各別一者的該第二滑橇托架耦接,各個該等複數對滑橇維持器係配置為與插入由該等複數對滑橇托架中與該對滑橇維持器耦接之一一者所界定的一滑橇空間中的一滑橇耦接。
範例78. 如範例77的方法,該等複數對滑橇維持器中之各者係配置為與自主性地插入由該等複數對滑橇托架中與該對滑橇維持器耦接之一者所界定之該滑橇空間的一滑橇耦接。
範例79. 如範例77的方法,該等複數對滑橇維持器中之各者係與該等複數對滑橇托架中之各別一者整合。
範例80. 如範例79的方法,該機架包含複數個多用途連接器模組(MPCM),該等複數個MPCM之各者係設置在該等複數個滑橇空間中之各別一者中。
範例81. 如範例80的方法,該機架包含與該第一柱體及該第二柱體耦接的複數個MPCM托架,該等複數個MPCM托架與該等MPCM中之相應者耦接以將該等複數個MPCM以一定向固定在該滑橇空間中。
範例82. 如範例80的方法, 該機架包含:一互連織機設置在該第一柱體或該第二柱體中之至少一者內;以及複數條光學互連電纜,該等複數條光學互連電纜各與該等複數個MPCM的一各別MPCM耦接且被規劃路徑至該互連織機。
範例83. 如範例82的方法,該等複數條互連電纜之各者係經由以該第一或第二柱體中至少一者所界定之複數個滑橇空間電纜取用埠而規劃路徑至該互連織機。
範例84. 如範例82的方法,該機架其包含複數個電力模組,各個該等複數個電力模組係組配為可供應電力予一各別滑橇空間中的一滑橇。
範例85. 如範例84的方法,該等複數個電力模組之各者係與該等複數對滑橇托架中之一各別第一者耦接。
範例86. 如範例85的方法,該機架包含複數條電子電力線,該等複數條電子電練現與該等複數個MPCM之各別一者及一各別電力模組耦接。
範例87. 如範例86的方法,該等複數個電力模組之各者係組配為可提供交流(AC)電力來源並提供直流(DC)電力。
範例88. 如範例87的方法,該等複數個MPCM之各者包含配置來與一滑橇側MPCM耦接的插座。
範例89. 如範例88的方法,該等複數個MPCM之各者包含:一光學連接器,其係配置為與該滑橇側MPCM的一光學連接器耦接以使該滑橇側MPCM與一光學組構耦接;以及一電力連接器,其係配置為與該滑橇側MPCM的一電力連接器耦接以使該滑橇側MPCM與該等複數個電力模組中之一一者耦接。
範例90. 如範例68至89任一者的方法,該機架包含:一擴充柱體,其係設置在該第一柱體與該第二柱體之間;以及與該擴充柱體耦接的複數個擴充滑橇托架,該等複數個擴充滑橇托架之各者對應於該等複數對滑橇托架中之一一者,該等複數個擴充滑橇托架之各者與所對應之複數對滑橇托架中之一者界定出一擴充滑橇空間以容納容裝有至少一個實體資源的一擴充滑橇。
範例91. 如範例68至89任一者的方法,其中,該機架不包含該第一柱體與第二柱體以外更多的柱體。
範例92. 如範例68至89任一者的方法,其中,該第一柱體與該第二柱體係設置在該機架的後角落處以界定該機架的一後平面。
範例93. 如範例92的方法,其中,該等複數對滑橇托架中之各者係與該第一柱體及該第二柱體耦接以界定該機架的側平面。
範例94. 如範例93的方法,其中,該側平面為露天的。
範例95. 如範例94的方法,其中,該機架不具有覆蓋該側平面的一機殼。
範例96. 如範例68至89任一者的方法,其中,該滑橇空間較一傳統機架單元大。
範例97. 如範例68至89任一者的方法,其中,該滑橇空間非一傳統機架單元的整數倍。
範例98. 如範例68至89任一者的方法,其中,該滑橇空間非1.75吋的整數倍。
範例99. 一種方法,其包含:接收一資訊元件以包括用於在一資料中心中的複數個實體資源之遙測度量的一指示;判定一維護操作以包括基於該遙測度量而實體地操縱該等複數個實體資源中之一一者;以及啟始化一命令以包括給一自主性設備進行該維護操作的一指示。
範例100. 如範例99的方法,其包含:在該自主性設備處接收該資訊元件以包括用於該資料中心中之複數個實體資源的遙測資料之指示;以及由該自主性設備判定該維護操作以包括基於該遙測度量而將實體操縱該等複數個實體資源中之一者。
範例101. 如範例70的方法,該實體資源容裝在該資料中心之一機架的一滑橇上,該命令包含從該機架移除該滑橇的一指示。
範例102. 如範例71的方法,其包含藉由一自主性設備將該滑橇從該機架的一滑橇空間移除。
範例103. 如範例72的方法,其包含藉由一自主性設備將一替換滑橇插入該機架的該滑橇空間。
範例104. 至少一機器可讀媒體,其包含複數個指令回應於受一資料中心的一自主性設備執行而使該自主性設備進行下列動作:接收一命令以包括實體操縱一資料中心中的複數個實體資源中之一一者的一指示;發送一移動控制訊號至一機器,該移動控制包括使該機器移動到靠近一資料中心中之一滑橇的一指示;以及發送一操縱控制訊號至該機器,該操縱控制訊號包括使該機器實體地操縱該滑橇的一指示。
範例105. 如範例104的至少一機器可讀媒體,其包含致使該自主性設備進行下列動作的指令:在該機器處接收該命令;以及藉由該機器的一控制器產生移動控制訊號與操縱控制訊號。
範例106. 如範例105的至少一機器可讀媒體,該命令包含從該機架移除該滑橇的一指示。
範例107. 如範例106的至少一機器可讀媒體,該命令包含將該滑橇從該機架移除且以容裝有一實體資源的一滑橇來替換所移除滑橇的一指示,該實體資源與該等複數個實體資源中之一者為相同類型。
範例108. 如範例107的至少一機器可讀媒體,其包含致使該自主性設備將一替換滑橇插入該機架的該滑橇空間的指令。
範例109. 如範例108的至少一機器可讀媒體,其包含致使該自主性設備藉由一機器將一替換滑橇插入該機架的該滑橇空間的指令。
範例110. 至少一機器可讀媒體,其包含複數個指令回應於受一資料中心的一自主性設備執行而使該自主性設備進行下列動作:接收一資訊元件以包括用於在一資料中心中的複數個實體資源之遙測度量的指示;判定一維護操作以包括基於該遙測度量而實體操縱複數個實體資源中之一一者;以及啟始一命令以包括用於」一自主性設備以進行該維護操作的一指示。
範例111. 如範例110的至少一機器可讀媒體,其包含:在該自主性設備處接收一資訊元件,該資訊元件可包括用於在該資料中心中的複數個實體資源之遙測度量的指示;以及藉由該自主性設備判定該維護操作以包括基於該遙測度量而實體操縱複數個實體資源中之一一者。
範例112. 如範例111的至少一機器可讀媒體,該實體資源容裝在該資料中心之一機架的一滑橇上,該命令包含從該機架移除該滑橇的一指示。
範例113. 如範例112的至少一機器可讀媒體,其包含致使該自主性設備將一滑橇從該機架的該滑橇空間移除的指令。
範例114. 如範例113的至少一機器可讀媒體,其包含致使該自主性設備將一替換滑橇插入該機架的該滑橇空間的指令。
範例115. 一種用於一資料中心之一機架的設備,其包含:可容裝至少一實體資源的一滑橇,該滑橇包含:多用途連接器模組(MPCM)可與一資料中心之一機架的一MPCP耦接以將該至少一實體資源與一光學組構耦接;至少一機架安裝特徵可與該資料中心之該機架的一一對滑橇托架機器式耦接。
範例116. 如範例115的設備,該至少一實體資源一實體計算資源、一實體儲存資源、一實體加速資源或實體記憶體資源。
範例117. 如範例115的設備,該MPCM包含:一光學連接器配置為可與該機架的該等MPCM之一光學連接器耦接以使該MPCM與該光學組構耦接;以及一電力連接器配置為可與該機架的該等MPCM之一電力連接器耦接以使該MPCM與該機架的一電力模組耦接。
範例118. 一種系統,其包含用於一資料中心的一滑橇,該滑橇包含:複數個實體計算資源,該等複數個實體計算資源在操作時可產生一些熱能;以及該資料中心的一機架,該機架包含:可界定該機架之一後平面的一第一柱體與一第二柱體;複數對滑橇托架,來自各個該等複數對滑橇托架中之一第一滑橇托架與該第一柱體耦接且來自各個該等複數對滑橇托架中之一第二滑橇托架與該第二柱體耦接,各個該等複數對滑橇托架可界定該機架的側平面,該機架的該等側平面不包含一外殼;以及複數個風扇設置在靠近該機架的該後平面處,該等複數個風扇可將空氣移動橫越該等複數個實體計算資源以冷卻該等實體計算資源。
範例119. 如範例118的系統,其中,該等複數個實體計算資源之各者係設置在該滑橇上且靠近該機架的該後平面。
範例120. 如範例119的系統,其中,該等複數個實體計算資源之熱消散介於200至300瓦間。
範例121. 如範例119的系統,其中該等複數個實體計算資源各者之熱消散介於200至300瓦間。
範例121. 如範例118至121任一者的系統,其中,該滑橇空間並非傳統機架單元的一整數倍。
範例122. 如範例118至121任一者的系統,其中,該滑橇小於18吋深。
範例123. 如範例118至121任一者的系統,其中,該滑橇大於5吋高。
範例124. 如範範例118至121任一者的系統,其中,該滑橇大於20吋寬。
範例125. 如範例118至121任一者的系統,其中,該滑橇為為18吋寬、10吋深且8吋高。
100、300、400、1100、1900、1990‧‧‧資料中心
102A~102D、202、302-1~302-32、402A~402D、902、1202、1702、1802、1902‧‧‧機架
105A~105D、106、205-1~205-4、206、705、1005‧‧‧實體資源(PCR)
204-1~204-4、404A-1、404A-2~404D-2、504A、504B、704、1004、1504、1804、1904‧‧‧滑橇
205-1‧‧‧實體儲存資源
205-2‧‧‧實體加速資源
205-3‧‧‧實體記憶體資源
205-4‧‧‧實體計算資源
311A、311B、311C、311D‧‧‧取用途徑
412‧‧‧光學組構
500‧‧‧連接策略
514、914、1114‧‧‧雙模式光學切換基礎架構
515‧‧‧雙模式光學切換器
520‧‧‧雙模式光學主幹切換器
530‧‧‧葉片式切換器
600、800‧‧‧機架架構
601‧‧‧機架取用區域
603-1~603-5、803-1~803-7、903-1~903-7、1203-1~1203-6、1503、1703、1803‧‧‧滑橇空間
616-1~616-5、716、816-1~816-7、916-1~916-7、1016、1216-1~1216-6、1716、1816‧‧‧多用途連接器模組(MPCM)
705B‧‧‧補充實體資源
717、1117‧‧‧擴充連接器
718、1818‧‧‧擴充滑橇
903-1A~903-7A、1803A‧‧‧主要區域
903-1B~903-7B、1803B‧‧‧擴充區域
919、1219、1719、1819‧‧‧風扇
920-1~920-7‧‧‧電力模組
921‧‧‧外部電源
922-1~922-7‧‧‧光學電纜
923‧‧‧光學互連織機
1016A、1695R、1695S‧‧‧光學連接器
1016B、1697‧‧‧電力連接器
1024‧‧‧電力傳輸媒體
1025‧‧‧光學通道
1026‧‧‧雙模式光學網路介面電路
1027‧‧‧光學收發器模組
1028‧‧‧電力傳訊媒體
1100A‧‧‧實體基礎架構
1100B‧‧‧軟體界定基礎架構
1112‧‧‧光學組構
1130‧‧‧加速器滑橇
1132‧‧‧儲存滑橇
1134‧‧‧高性能處理滑橇
1136‧‧‧虛擬計算資源
1138‧‧‧SDI服務
1140‧‧‧雲端服務
1142‧‧‧Saas服務
1144‧‧‧Paas服務
1146‧‧‧Iaas服務
1150A、1150B‧‧‧實體基礎架構管理框架
1150C‧‧‧應用程式/服務管理框架
1220-1~1220-6、1420、1720‧‧‧電力模組
1222‧‧‧光學互連佈線
1223‧‧‧織機
1260A、1260B‧‧‧機架柱體
1261‧‧‧滑橇托架安裝部
1265‧‧‧滑橇空間電纜取用埠
1267、1667R、1667S、1767‧‧‧MPCM托架
1270、1270A、1270B、1370、1470、1570、1770A、1770B、1870A、1870B‧‧‧滑橇托架
1271‧‧‧柱體安裝部
1272‧‧‧托架對齊特徵
1273‧‧‧織機取用埠
1275、1475‧‧‧滑橇維持器架
1277、1377‧‧‧滑橇維持器安裝部
1280、1380、1580、1780A、1780B‧‧‧滑橇維持器
1381、1581‧‧‧對齊軌道
1383‧‧‧滑橇架安裝部
1479‧‧‧滑橇維持器架支撐部
1585‧‧‧機架安裝特徵
1616R‧‧‧機架側MPCM
1616S‧‧‧滑橇側MPCM
1622‧‧‧光學佈線
1625‧‧‧電力佈線
1691R、1691S‧‧‧MPCM本體
1693R、1693S‧‧‧MPCM插座
1860A、1860B、1860C‧‧‧機架柱體
1870C‧‧‧擴充托架
1911‧‧‧取用通道
1990、2000‧‧‧機器
1995‧‧‧多向性輪
1995A‧‧‧第一軸
1995B‧‧‧第二軸
1991、2091‧‧‧機器式手臂
1991A‧‧‧挑選叉
1991B‧‧‧滑塊
1993‧‧‧組件儲存架
1997‧‧‧電力來源/控制單元
2040‧‧‧控制器
2042‧‧‧命令組件
2044‧‧‧ID/定位組件
2046‧‧‧移動控制組件
2048‧‧‧手臂控制組件
2050、3050‧‧‧平台組件
2060、3060‧‧‧通訊介面
2061‧‧‧天線/無線電
2070‧‧‧電源
2095‧‧‧多向性輪
2097‧‧‧控制單元
2100、2200‧‧‧邏輯流程
2110、2120、2130、2210、2220、2230‧‧‧方塊
2300‧‧‧儲存媒體
3000‧‧‧計算平台
3040‧‧‧處理組件
102A~102D、202、302-1~302-32、402A~402D、902、1202、1702、1802、1902‧‧‧機架
105A~105D、106、205-1~205-4、206、705、1005‧‧‧實體資源(PCR)
204-1~204-4、404A-1、404A-2~404D-2、504A、504B、704、1004、1504、1804、1904‧‧‧滑橇
205-1‧‧‧實體儲存資源
205-2‧‧‧實體加速資源
205-3‧‧‧實體記憶體資源
205-4‧‧‧實體計算資源
311A、311B、311C、311D‧‧‧取用途徑
412‧‧‧光學組構
500‧‧‧連接策略
514、914、1114‧‧‧雙模式光學切換基礎架構
515‧‧‧雙模式光學切換器
520‧‧‧雙模式光學主幹切換器
530‧‧‧葉片式切換器
600、800‧‧‧機架架構
601‧‧‧機架取用區域
603-1~603-5、803-1~803-7、903-1~903-7、1203-1~1203-6、1503、1703、1803‧‧‧滑橇空間
616-1~616-5、716、816-1~816-7、916-1~916-7、1016、1216-1~1216-6、1716、1816‧‧‧多用途連接器模組(MPCM)
705B‧‧‧補充實體資源
717、1117‧‧‧擴充連接器
718、1818‧‧‧擴充滑橇
903-1A~903-7A、1803A‧‧‧主要區域
903-1B~903-7B、1803B‧‧‧擴充區域
919、1219、1719、1819‧‧‧風扇
920-1~920-7‧‧‧電力模組
921‧‧‧外部電源
922-1~922-7‧‧‧光學電纜
923‧‧‧光學互連織機
1016A、1695R、1695S‧‧‧光學連接器
1016B、1697‧‧‧電力連接器
1024‧‧‧電力傳輸媒體
1025‧‧‧光學通道
1026‧‧‧雙模式光學網路介面電路
1027‧‧‧光學收發器模組
1028‧‧‧電力傳訊媒體
1100A‧‧‧實體基礎架構
1100B‧‧‧軟體界定基礎架構
1112‧‧‧光學組構
1130‧‧‧加速器滑橇
1132‧‧‧儲存滑橇
1134‧‧‧高性能處理滑橇
1136‧‧‧虛擬計算資源
1138‧‧‧SDI服務
1140‧‧‧雲端服務
1142‧‧‧Saas服務
1144‧‧‧Paas服務
1146‧‧‧Iaas服務
1150A、1150B‧‧‧實體基礎架構管理框架
1150C‧‧‧應用程式/服務管理框架
1220-1~1220-6、1420、1720‧‧‧電力模組
1222‧‧‧光學互連佈線
1223‧‧‧織機
1260A、1260B‧‧‧機架柱體
1261‧‧‧滑橇托架安裝部
1265‧‧‧滑橇空間電纜取用埠
1267、1667R、1667S、1767‧‧‧MPCM托架
1270、1270A、1270B、1370、1470、1570、1770A、1770B、1870A、1870B‧‧‧滑橇托架
1271‧‧‧柱體安裝部
1272‧‧‧托架對齊特徵
1273‧‧‧織機取用埠
1275、1475‧‧‧滑橇維持器架
1277、1377‧‧‧滑橇維持器安裝部
1280、1380、1580、1780A、1780B‧‧‧滑橇維持器
1381、1581‧‧‧對齊軌道
1383‧‧‧滑橇架安裝部
1479‧‧‧滑橇維持器架支撐部
1585‧‧‧機架安裝特徵
1616R‧‧‧機架側MPCM
1616S‧‧‧滑橇側MPCM
1622‧‧‧光學佈線
1625‧‧‧電力佈線
1691R、1691S‧‧‧MPCM本體
1693R、1693S‧‧‧MPCM插座
1860A、1860B、1860C‧‧‧機架柱體
1870C‧‧‧擴充托架
1911‧‧‧取用通道
1990、2000‧‧‧機器
1995‧‧‧多向性輪
1995A‧‧‧第一軸
1995B‧‧‧第二軸
1991、2091‧‧‧機器式手臂
1991A‧‧‧挑選叉
1991B‧‧‧滑塊
1993‧‧‧組件儲存架
1997‧‧‧電力來源/控制單元
2040‧‧‧控制器
2042‧‧‧命令組件
2044‧‧‧ID/定位組件
2046‧‧‧移動控制組件
2048‧‧‧手臂控制組件
2050、3050‧‧‧平台組件
2060、3060‧‧‧通訊介面
2061‧‧‧天線/無線電
2070‧‧‧電源
2095‧‧‧多向性輪
2097‧‧‧控制單元
2100、2200‧‧‧邏輯流程
2110、2120、2130、2210、2220、2230‧‧‧方塊
2300‧‧‧儲存媒體
3000‧‧‧計算平台
3040‧‧‧處理組件
圖1例示說明一第一範例資料中心。
圖2例示說明一資料中心的一第一範例機架。
圖3例示說明一第二範例資料中心。
圖4例示說明一第三範例資料中心。
圖5例示說明一資料中心連接性策略。
圖6例示說明一第二範例機架。
圖7例示說明一第一範例滑橇。
圖8例示說明一第三範例機架。
圖9例示說明一第四範例機架。
圖10例示說明一第二範例滑橇。
圖11例示說明一第四範例資料中心。
圖12A至12E例示說明一第五範例機架。
圖13A至13B例示說明一機架的範例部分。
圖14例示說明一機架之範例部分。
圖15A至15C例示說明一機架之範例部分。
圖16A至16B例示說明一機架之範例部分。
圖17例示說明一機架之範例部分。
圖18例示說明一第六範例機架。
圖19例示說明一第五範例資料中心。
圖20例示說明用於一資料中心的一範例機器。
圖21例示說明一第一範例邏輯流程。
圖22例示說明一第二範例邏輯流程。
圖23例示說明一範例儲存媒體。
圖24例示說明一範例計算平台。
202‧‧‧機架
204-1~204-4‧‧‧滑橇
205-1~205-4‧‧‧實體資源
205-1‧‧‧實體儲存資源
205-2‧‧‧實體加速資源
205-3‧‧‧實體記憶體資源
205-4‧‧‧實體計算資源
206‧‧‧實體資源
Claims (30)
- 一種資料中心機架,其包含: 一第一柱體與一第二柱體;與 複數對滑橇托架,來自該等複數對滑橇托架中之各者的一第一滑橇托架與該第一柱體耦接,以及來自該等複數對滑橇托架之各者的一第二滑橇托架與該第二柱體耦接,該等複數對滑橇托架各可容納一滑橇。
- 如請求項1的資料中心機架,該等複數對滑橇托架各界定一滑橇空間且包含複數對滑橇維持器、來自該等複數對滑橇維持器之各者的一第一滑橇維持器與該等複數對滑橇托架中之各別一者的該第一滑橇托架耦接以及來自該等複數對滑橇維持器中之各者的一第二滑橇維持器與該等複數對滑橇托架中之該各別一者的該第二滑橇托架耦接,該等複數對滑橇維持器之各者被配置為與插入由該等複數對滑橇托架中與該對滑橇維持器耦接之一一者所界定的一滑橇空間中的一滑橇耦接。
- 如請求項2的資料中心機架,該等複數對滑橇維持器中之各者被配置為與自主性地插入由該等複數對滑橇托架中與該對滑橇維持器耦接之一者所界定之該滑橇空間的一滑橇耦接。
- 如請求項1的資料中心機架,其包含複數個多用途連接器模組(MPCM),該等複數個MPCM之各者被設置在該等複數個滑橇空間中之各別一者內。
- 如請求項4的資料中心機架,包含與該第一柱體及該第二柱體耦接的複數個MPCM托架,該等複數個MPCM托架與該等MPCM中之相應者耦接以將該等複數個MPCM以一定向固定在該滑橇空間中。
- 如請求項4的資料中心機架,其包含: 一互連織機,其被設置在該第一柱體或該第二柱體中之至少一者內;以及 複數條光學互連電纜,該等複數條光學互連電纜中之各者與該等複數個MPCM的一各別MPCM耦接且被規劃路徑至該互連織機。
- 如請求項6的資料中心機架,該等複數條互連電纜中之各者經由被界定在該第一柱體或該第二柱體中之至少一者內的複數個滑橇空間電纜取用埠而被規劃路徑至該互連織機。
- 如請求項6的資料中心機架,其包含複數個電力模組,各個該等複數個電力模組經組配為可供應電力予一各別滑橇空間中的一滑橇。
- 如請求項8的資料中心機架,該等複數個MPCM之各者包含: 一光學連接器,其被配置為與該滑橇側MPCM的一光學連接器耦接以使該滑橇側MPCM與一光學組構耦接;以及 一電力連接器,其被配置為與該滑橇側MPCM的一電力連接器耦接以使該滑橇側MPCM與該等複數個電力模組中之一者耦接。
- 如請求項1的資料中心機架,其包含: 一擴充柱體,其被設置在該第一柱體與該第二柱體之間;以及 與該擴充柱體耦接的複數個擴充滑橇托架,該等複數個擴充滑橇托架之各者對應於該等複數對滑橇托架中之一者,該等複數個擴充滑橇托架之各者與其所對應之複數對滑橇托架之一者界定出一擴充滑橇空間以容納容裝有至少一個實體資源的一擴充滑橇。
- 一系統,其包含: 用於一資料中心的一滑橇,該滑橇包含: 一機架安裝特徵,與 至少一個實體資源;以及 該資料中心的一機架,該機架包含: 一第一柱體與一第二柱體,與 複數對滑橇托架、來自該等複數對滑橇托架中之各者的一第一滑橇托架與該第一柱體耦接以及來自該等複數對滑橇托架之各者的一第二滑橇托架與該第二柱體耦接,該等複數對滑橇托架之各者界定可容納一滑橇的一滑橇空間。
- 如請求項11的系統,該機架包含複數對滑橇維持器、來自該等複數對滑橇維持器之各者的一第一滑橇維持器與該等複數對滑橇托架之各別一者的該第一滑橇托架耦接以及來自該等複數對滑橇維持器中之各者的一第二滑橇維持器與該等複數對滑橇托架中之各別一者的該第二滑橇托架耦接,該等複數對滑橇維持器之各者被配置為與該滑橇耦接。
- 如請求項12的系統,該機架包含複數個多用途連接器模組(MPCM),該等複數個MPCM之各者被設置在該等複數個滑橇空間中之各別一者中。
- 如請求項13的系統,該機架包含: 一互連織機,其被設置在該第一柱體或該第二柱體之至少一者內;以及 複數條光學互連電纜,該等複數條光學互連電纜之各者與該等複數個MPCM的一各別MPCM耦接且被規劃路徑至該互連織機。
- 如請求項14的系統,其包含複數個電力模組,該等複數個電力模組之各者經組配為可供應電力予一各別滑橇空間中的一滑橇。
- 如請求項15的系統,其包含複數條電氣電力電纜,該等複數條電氣電力電纜之各者與該等複數個MPCM的一各別MPCM及一各別電力模組耦接。
- 如請求項16的系統,該等複數個電力模組之各者經組配為可提供交流(AC)電力來源並提供直流(DC)電力。
- 如請求項17的系統,該滑橇包含被配置為與該等複數個機架側MPCM耦接的一滑橇側MPCM。
- 如請求項18的系統,該等複數個MPCM之各者包含: 一光學連接器,其被配置為與該滑橇側MPCM的一光學連接器耦接以使該滑橇側MPCM與一光學組構耦接;以及 一電力連接器,其被配置為與該滑橇側MPCM的一電力連接器耦接以使該滑橇側MPCM與一該等複數個電力模組中之一者耦接。
- 如請求項11的系統,其包含: 一擴充柱體,其被設置在該第一柱體與該第二柱體之間;以及 與該擴充柱體耦接的複數個擴充滑橇托架,該等複數個擴充滑橇托架之各者對應於一該等複數對滑橇托架中之一者,該等複數個擴充滑橇托架之各者與其所對應之複數對滑橇托架中之一者界定一擴充滑橇空間以容納容裝有至少一個實體資源的一擴充滑橇。
- 如請求項20的系統,其包含被插入該等擴充滑橇空間中之一者的一擴充滑橇,該擴充滑橇包含至少一補充實體資源,該機架包含使該至少一實體資源與該至少一補充實體資源耦接的一光學互連件。
- 一種方法,其包含下列步驟: 發送一移動控制訊號到一機器,該移動控制包括使該機器移動到靠近一資料中心中之一滑橇的一指示;以及 發送一操縱控制訊號至該機器,該操縱控制訊號包括使該機器實體地操縱該滑橇的一指示。
- 如請求項22的方法,其包含接收包括有實體地操縱該滑橇之一指示的一命令。
- 如請求項23的方法,該實體資源被容裝在該資料中心之一機架中的一滑橇上,該命令包含一指示,該指示可將該滑橇從該機架移除且以容裝有與該等複數個實體資源之一者為相同類型之一實體資源的一滑橇來替換被移除的該滑橇。
- 如請求項24的方法,該命令包含一指示,該指示可以容裝有與該等複數個實體資源之一者為相同類型之一實體資源的一滑橇替換所移除的該滑橇。
- 一種系統,其包含: 用於一資料中心的一滑橇,該滑橇包含複數個實體計算資源,該等複數個實體計算資源在操作時可產生一些熱能;以及 該資料中心的一機架,該機架包含: 可界定該機架之一後平面的一第一柱體與一第二柱體; 複數對滑橇托架,來自該等複數對滑橇托架中之各者的一第一滑橇托架與該第一柱體耦接且來自該等複數對滑橇托架中之各者的一第二滑橇托架與該第二柱體耦接,該等複數對滑橇托架之各者可界定該機架的側平面,該機架的該等側平面不包含一外殼;以及 複數個風扇,其被設置在靠近該機架的該後平面處,該等複數個風扇將空氣移動橫越該等複數個實體計算資源以冷卻該等實體計算資源。
- 如請求項26的系統,其中,該等複數個實體計算資源之各者被設置在該滑橇上且靠近該機架的該後平面。
- 如請求項27的系統,其中,該等複數個實體計算資源之熱消散介於200至300瓦間,或者其中該等複數個實體計算資源之各者之熱消散介於200至300瓦間。
- 如請求項28的系統,其中,該滑橇空間並非傳統機架單元的一整數倍。
- 如請求項29的系統,其中,該滑橇為小於18吋深、大於5吋高且大於20吋寬。
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