201108118 六、發明說明: 【發明戶斤屬之技術領域3 揭露領域 本揭露大體與資訊處置系統有關,且更加特別地,# 用以致能資訊處置系統中之資源的系統與方法有關。 背景 隨著資訊之價值及使用的持續增加,個人及企業尋戈 另外的處理及儲存資訊方法。一個選擇是一種資訊處置系 統。出於企業、個人、或其他目的,資訊處置系統—般處 理、編輯、儲存、及/或傳送資訊或資料。因為技術及資訊 處置的需要及要求在不同應用程式之間可能是不同的關 於什麼貧訊被處置、資訊如何被處置、多少資訊被處理' 儲存、或傳送、及資訊可如何被迅逮及有效地處理、儲存、 或傳送’資§fl處置系統也可能是不同的。資訊處置系統中 的變化容許資訊處置“是通雜的或針對一特定使用者 或特定用途配置,諸如財務交易處理、飛機訂票、企業資 料儲存或全球通信。此外,資訊處置系統可配置成使用多 種犯夠配置成處理、儲存、及傳送資㈣硬體及軟體元件, 且可包括-個或多個電腦系統、資料儲存系統、及網路系 統。 C 明内 6依據本發明之一實施例,係特地提出一種資訊處置系 統’其包含:—事件檢測模組,可操作以檢測〆使用者啟 201108118 動事件及一非使用者啟動事件;耦接到該事件檢測模組的 一資源分配模組,該資源分配模組可操作以將一第一檢測 事件映射到一第一處理系統的一第一操作狀態;一第二處 理系統,回應該資源分配模組且可操作以存取該第一處理 系統的一共享資源;以及其中該資源分配模組配置成使用 該第一處理系統的一共享資源啟動意欲由該第二處理系統 輸出之的一輸出。 圖式簡單說明 將被理解的是,為了使說明簡化及清晰起見’在圖式 中所繪示的元件不一定是按比例繪製。例如,某呰元件的 尺寸相對於其他元件被放大。 納入本揭露之教示的實施例相關於本說明書中所私 的圖式被說明及描述,其中: 第1圖續示根據本揭露之一個層面的資訊處置系义 方塊圖; 第2圖繪示根據本揭露之一個層面的包枯分配資源 可操作資訊處置系統的功能方塊圖; 第3圖繪示根據本揭露之一個層面用以存取資訊處置 系統中之資源的一種方法的流程圖; 第4圖繪示根據本揭露之一個層面的一資訊處置系’’先 的功能方塊圖,該系統包括輸出適切與非適切縮減資源 可修改操作狀態以使用局部資源輸出非適切闪容; 第5圖繪示根據本揭露之一個層面的利用縮減資源之 貧訊處置系統的功能方塊圖,該系統使用局部資源輸出邡 201108118 " 適切内容; 第6圖繪示根據本揭露之一個層面的利用分配及釋出 資源之資訊處置系統的功能方塊圖,該系統使用局部資源 輸出適切内容;以及 第7圖繪示根據本揭露之一個層面的資源分配模組功 能方塊圖,該分配模組分配資訊處置系統的局部資源以輸 出非適切内容。 在不同圖式中使用相同的參考符號指示類似或相同的 項目。 【實施方式3 圖式之詳細說明 , 與該等圖式相結合的以下描述被提供以有助於理解於 此所揭露的教示。以下討論將把重點放在特定實施態樣及 實施例。此重點被提供以有助於描述教示且不應被理解為 限制教示的範圍或應用性。然而,其他教示當然可用於此 申請案。教示也可用於其他申請案及具有諸如分散式計算 架構、客戶/伺服器架構、或中間軟體伺服器架構及相關聯 組件之若干不同類型的架構。 就此揭露的目的而言,資訊處置系統可包括任何手段 或手段之集合,該等手段或手段之集合可操作以計算、分 類、處理、發送、接收、擷取、發源、交換、儲存、顯示、 表明、檢測、記錄、再現、處置、或使用任何形式的資訊、 智慧、或資料用於商業、科學、控制、娛樂、或其他目的。 例如資訊處置系統可以是個人電腦、PDA、消費者電子裝 201108118 置、網路伺服器或儲存裝置、交換式路由器、無線路由器、 或其他網路通訊裝置、或任何其他合適的裝置且大小、形 狀、性能、功能及價格可以有所不同。資訊處置系統可包 括記憶體(依電性(例如隨機存取記憶體等)、非依電性(唯讀 δ己憶體、快閃S己憶體等)或其等之任一組合)、諸如中央處理 單元(CPU)、圖形處理單元(GPU)、硬體或軟體控制邏輯元 件或其等之任一組合的一個或多個處理資源。資訊處置系 統之額外的元件可包括一個或多個儲存裝置'用於與外部 裝置通訊的一個或多個通訊埠,以及諸如鍵盤、滑鼠、視 訊/圖形顯示器或其等之任一組合的各種輸入輸出(I/O)裂 置。資訊處置系統也可包括可操作以在各種硬體元件之間 傳送通訊訊息的一個或多個匯流排。資訊處置系統的多個 部分本身可被認為是資訊處置系統。 當資訊處置糸統的多個部分被稱為「裝置」、「模組」、 或諸如此類時,其等可配置為硬體、軟體(可包括韌體)或其 等之任一組合。例如,資訊處置系統裝置的一部分可以是 諸如積體電路(諸如特定應用積體電路(ASIC)、可現場規劃 閘陣列(FPGA)、結構化ASIC、或嵌入在較大晶片上之褒置) 的硬體、卡(諸如週邊組件介面(PCI)卡、PCI快速卡、個人 電腦記憶體卡國際協會(PCMCIA)卡、或其他此類擴充 卡)、或系統(諸如母版、晶片上系統(SoC)、或獨立裝置)。 類似地,裝置可以是軟體,包括嵌在諸如奔騰處理器級或 PowerPC™品牌的處理器、或其他此類裝置之裝置上的章刀 體,或可操作資訊處置系統之有關環境的軟體。裝置也可 201108118 以是任一前述硬體或軟體例子的組合。值得注意的是,資 訊處置系統可包括一積體電路或一板件等級產品,具有其 多個部分也可以是硬體與軟體之任一組合。 彼此通訊的裝置或程式產品不需要彼此持續通訊,除 非另外明確說明。此外,彼此通訊的裝置或程式產品可直 接或經由一個或多個中間媒介間接通訊。 下文所討論的實施例部分地描述管理網路元件之間之 全部或部分通訊式互動的分散式計算解決方案。在此脈絡 中,通訊式互動可用來發送資訊、發送資訊、請求資訊、 接收資訊、接收資訊請求、或其等之任一組合。因此,通 訊式互動可以是單向、雙向、多向、或其等之任一組合。 在一些情況下,通訊式互動可能比較複雜且涉及兩個或多 個網路元件。例如,通訊式互動可以是客戶與伺服器之間 的「交談」或一系列相關通訊一每一網路元件向另一網路 元件發送資訊且從該另一網路元件接收資訊。網路元件之 間的通訊式互動未必只限制於一種特定形式。網路元件可 以是一節點、一件硬體、軟體、韌體、中間軟體、計算系 統的另一元件或其等之任一組合。 在下面的描述中,流程式技術可用一系列連續的動作 予以描述。除非明確說明相反,動作序列及執行該等動作 的一方可在不脫離本教示之範圍的前提下自由地改變。動 作可被增加、刪除、或以若干方式改變。類似地,動作可 被重新排序或循環。此外,儘管流程、方法、演算法、或 諸如此類可以連續順序描述,但是這些流程、方法、演算 201108118 法、或其等之任-組合可操作以可供 _ 者,流程 '方法、或演算法+的_些動作可至。再 點被同時執行(例如動作被並行執行),也可被整體時、間 或其等之任一組合地執行。 刀、 於此所使用的名詞「包含」'「包括」'「具有」或其等之 任何其他變化意欲涵蓋非排他性内含物。例如,包含— 特徵的流程、方法、物件、衫置未必只限於料=列 而是可包括沒有明確列出的錢些流程方法、物件 裝置所固有的其他特徵。再者,除非明確說明相反,「或 是指互容或而非互斥或。例如,條件由如下條件中^ 任-者滿t A為真(或存在加為假啦存在),A為假(或 不存在)且B為真(或存在),及燦兩者都為真(或存在卜 同樣地使用一」是用來描述於此所述的元件及元 件°这麼做只是為了方便及給出本發明之範圍的一般意 義。此描述應被理解為包括—個或至少—個且單數也包括 複數,或反之亦然,除顯然意思不然。例如,當一單一裝 置於此被描述時,-個以上的裝置可用來代替單一裝置。 類似地,在一個以上的裝置於此被描述之處,一單一裝置 可代替該一個裝置。 除非另外定義,於此所使用的所有技術及科學術語具 有與本發明所屬之技藝領域之—具有通常知識者通常所理 解的相同的意義。儘管與於此所述的那些類似或等效的方 法及材料可用在本發明之實施例的實施或測試巾,合適的 方法與材料將在下文中予以描述。所有公開案、專利申請 201108118 及例子只是 案、專利、及於此所提到的其他參考都透過泉考方弋敕 併入,除非一特定章節被引用。萬一衝突,本說明=正= 括定義’將有支配作用。此外,材料、方法、 說明性的而不打算加以限制。 在某種程度上,於此沒有予以描述的與特定材料、處 理動作、及電路有關的許多細節是習知的,且可在竹μ处 電子、及軟體技藝領域中的教科書及其他來源中找到异 一資訊處置系統及使用該資訊處置系統的方法在下文 中予以描述。-示範性、非限制系統描述在前面被描=文 解決使用該系統的方法。系統中的模組的—些功能使用兮 系統描述。由於緊接系統與模組之描述的方法之描述系 統及其模組的效用將變得更加顯然。 根據本揭露的一層面,資訊處置系統可包括可操作以 檢測使用者啟動事件及非使用者啟動事件的—事件檢測模 組。資訊處置系統也可包括耦接到該事件檢測模組的一資 源分配模組。以一形式,資源分配模組可操作以將第一檢 測事件映射到第一處理系統的第一操作狀態。資訊處置系 統也可包括回應該資源分配模組且可操作以存取第一處理 系統之共享資源的第二處理系統。資源分配模組可配置成 使用第一處理系統的共享資源啟動意欲由第二處理系統輸 出之資訊的輸出。 根據本揭露的另一層面,一種致能資訊處置系統中之 資源的方法被揭露。該方法可包括檢測可操作以啟動存取 第一處理系統之第一組資源的事件。該方法也可包括識別 201108118 第一處理系統的第一設定檔。以一形式,該第一設定檔可 包括可由第二處理系統存取之該第一資訊處置系統的多個 資源分配項目。該方法也可包括使用該等多個資源分配項 目致能第一處理系統的第一組資源,且使用第二處理系統 存取第一組資源。 根據本揭露的又一層面,資訊處置系統可包括具有第 一主機處理器的第一處理系統,該第一主機處理器可操作 以使用第一組可利用資源處理資訊。以一形式,該第一組 可利用資源可包括包含儲存顯示器解析度值之一記憶體裝 置的一共享顯示器資源、及配置成藉由一共享操作環境及 一非共享操作環境接收輸入的一共享輸入裝置。資訊處置 系統也可包括具有可操作以處理資訊以藉由第一處理系統 輸出之一第二主機處理器的第二處理系統、及可操作以存 取顯示器解析度值以將資訊格式化以使用共享顯示器輸出 的一視訊轉譯模組。資訊處置系統可進一步包括配置成檢 測使用者啟動事件及非使用者啟動事件的一事件檢測模 組。以一形式,事件檢測模組可進一步配置成使用第二處 理系統的一部分啟動存取第一處理系統。資訊處置系統可 進一步包括可操作以決定第一處理系統與第二處理系統之 可利用資源的一資源分配模組。 第1圖繪示大致以100標出的資訊處置系統之一示範性 實施例的方塊圖。以一形式,資訊處置系統100可以是諸如 桌上型電腦、筆記型電腦、伺服器的一電腦系統或各種其 他類型的資訊處置系統。如在第1圖中所示,資訊處置系統 10 201108118 100可包括可操作以檢測使用者啟動及非使用者啟動事件 的一事件檢測模組102。該事件檢測模組102可搞接到具有 存取一個或多個資源設定樓106的一資源分配模組。資 訊處置系統100也可包括耦接到第一處理系統108之第—非 共享資源110的第一處理系統108。以一形式,第一處理系 統108可包括一主晶片組、處理器、記憶體、通訊匯流排、 周邊裝置、應用程式、基本輸入/輸出系統(BIOS)、或其等 之任何組合(圖未示)。第一處理系統108也可包括多個共享 資源,該等共享資源包括共享輸入資源112、共享周邊資源 114、共享電源資源116、共享應用程式資源118、共享輸出 資源120或其等之任一組合。第一處理系統log可搞接到資 源分配模組104,該資源分配模組104可操作以分配根據事 件檢測模組102所檢測到的事件將被使用的共享資源、及_ 個或多個相關聯資源設定檀106。以一形式,共享資源ip、 114、116、118、120可配置作為第一處理系統1〇8的一部分 且可由一個或多個處理系統存取。以其他形式,一個或多 個共享資源可在第一處理系統108的外部被提供。 根據另一層面,資訊處置系統1〇〇也可包括包含括第二 非共享資源124的一第二處理系統122。該第二處理系統122 可耦接到第一處理系統108之共享資源112、114、116、118、 120中的一者或多者。第二處理系統122可進一步被耦接到 資源分配模組104,資源分配模組104可操作以分配將被第 二處理系統122使用的資源。此外,資源分配模組104可進 —步被耦接到第η處理系統126,該第η處理系統126可操作 201108118 以被輕接到第一處理系統1〇8之共享資源ii2、114、116、 118、120中的一者或多者。該第〇處理系統126可進一步包 括第η非共享資源128。 在操作期間’事件檢測模組1〇2可檢測使用者啟動事 件、非使用者啟動事件、或其等之任一組合。例如,使用 者啟動事件可包括可產生使用者啟動事件的使用者啟動一 鍵、按鈕、或其他類型的硬體'軟體、或使用者可選介面、 或其等之任何組合。例如,使用者可選擇一按紐,以存取 資訊處置系統100的一傳訊應用程式。因此,事件檢測模組 10 2可檢測存取傳訊應用程式的請求且將事件請求耦接到 資源分配模組104。 根據又一層面,事件檢測模組1〇2可檢測非使用者啟動 事件。例如’資訊處置系統1〇〇可包括一通訊模組(圖未示), 該通訊模組可操作以藉由無線通訊、地面或有線通訊、或 其等之任一組合接收通訊信號。資訊處置系統1〇〇可檢測非 使用者啟動事件,且可將該事件的輸入識別檢測耦接到資 源分配模組104。資源分配模組1〇4可使用所檢測事件識別 資源設定檔106 ’且開始啟動資源,以處理該非使用者啟動 事件。例如’資源設定檔1〇6可包括第一處理系統1〇8、第 二處理系統12 2、第η處理系統12 6或其等之任一組合之所期 望資源的一列表。然後資源分配模組104可使用所檢測事件 基於資源設定擋開始啟動資源及可利用資源以處理該事 件。 以一形式,資訊處置系統100可檢測被傳送至資訊處置 12 .201108118 I子裝置的非使用者啟動事件。例如,事 :檢測模組繼可配置成檢測由配置成接收訊息的智慧型 灯動電錢置、黑每機袈置、或任何類型電子裝置接收的 格式化訊息。例如,貢訊處置系統_可包括—通訊模組(圖 未示),該通訊餘可操作藉由可操作以傳送訊息的 4何周路傳送的無線訊息m諸如smS網路、的無線 傳訊,周路、黑莓機致能财、或任何其他類型的傳訊致能 ‘”、線或有線網路。根據_層面’事件檢測模組服可將所檢 測輸入柄接到指不錢機格式化(或其他格式)訊息已檢測 的資源刀酉己模組1〇4。因此,資源分配模組1〇4可存取資源 設定檔刚且決定事件的f源設定檔及啟動資源分配以處 理黑每機訊息。 以示範性形式,資訊處置系統100可以包括足夠資源 以檢測無線信號的一低功率操作狀態操作。因此,資源分 配換組104可決定資訊處置系統1()()的目前操作狀態,及開 始致能諸如第二處理系統122、共享輸入資源112、共享電 源資源116、共享應用程式資源118、共享輸出資源12〇、或 其等之任一組合的資源,以處理且輸出一對接收無線信號 的回應。因此,用以輸出對一訊息,諸如黑莓機訊息之回 應的操作環境可使用有限數量的資源被致能,而不必初始 化資訊處置系統100的額外資源。例如,諸如顯示器的共享 周邊資源114可被存取,以使用第二處理系統122輸出訊 息。此外,第一處理系統108的鍵盤或其他輸入裝置可被供 電令使用者能回應訊息。因此,一有限資源操作環境可被 201108118 產生,以容許接受及回應訊息而不必為整個資訊處置系統 100供電。以此方式,膝上型電腦或筆記型電腦系統可用來 接收可能欲由黑莓機或其他類型傳訊裝置接收的訊息,從 而允許使用者使用相對於黑莓機裝置或智慧型行動電話裝 置的較大顯示器查看訊息’及根據需要使用可攜式或筆記 型電腦系統的鍵盤及顯示器及相關聯輸入裝置草擬和回應 訊息。 第2圖繪示根據本揭露之一個層面的包括分配資源之 可操作資訊處置系統2〇〇的功能方塊圖。資訊處置系統可包 括一主機處理系統202,該主機處理系統202可包括一主 CPU、一主CPU晶片組、記憶體、一主機作業系統。該主 機處理系統202也可包括一第一BIOS 238,該第一BIOS 238 可操作以致能可被主機處理系統202存取的資源。資訊處置 系統200也可包括一般被稱為第二處理系統204的一第二處 理系統,該第二處理系統可包括一辅助CPU、一輔助CPU 晶片組、輔助記憶體、及一輔助作業系統。第二處理系統 204也包括一第二BIOS 240,該第二BIOS 240可操作以致能 可被該第二處理系統204存取的資源。以一形式’第二處理 系統204可包括可被主機處理系統202共用的BIOS擴充或輸 入端。 根據一層面,主機處理系統202及第二處理系統204可 被耦接到一資源分配模組206。例如,主機處理系統202可 使用一第一匯流排208及一第二匯流排210被耦接到資源分 配模組206。以一形式,第一匯流排208可包括一低接腳數 14 201108118 ' (LPC)匯流排,及第二匯流排可包括一系統管理匯流排 (SMBUS)。此外,第二處理系統204可使用一第三匯流排212 及一第四匯流排214被耦接到資源分配模組206。以一形 式,三匯流排212可包括一PS2匯流排、一RS232匯流排、 一SPI匯流排、或其他類型的匯流排。以另一形式,第四匯 流排214可根據需要包括一 SMBUS、或其他類型的匯流排。 資訊處置系統200也可包括耦接到資源分配模組206的 一事件檢測模組218及儲存在一記憶體中且可被資源分配 模組206存取的一資源設定檔源220。主機處理系統202也可 被耦接到第一非共享資源222及一周邊交換模組224。第二 處理系統202可被耦接到第二非共享資源226及周邊交換模 組224。資源分配模組206也可被輕接到諸如鍵盤、指向裝 置或其等之任何組合的一輸入裝置228。資源分配模組2〇6 也可被耦接到一顯示器230’諸如可包括一背光與周圍光感 測(ALS)能力的平面螢幕或平板顯示器。資源分配模組2〇6 可進-步被耗接到電源資源232,該電源資源232可操作以 為第二處理系統204提供電源及輸出主機處理電源2 3 *。周 邊交換模組224可進-步被耗接到—個或多個共享周邊設 備236。 第3圖繪示根據本揭露之一個層面的一種用以存取資 訊處置系統中之資源之方法的流程圖。第3圖可由可操作以 使用第3圖之方法的全部或多個部分的在“圖中所述的資 訊處置系統100、在第2圖中所述的資訊處置系統2〇〇、在第 4圖中所述的資訊處置系統彻、或任何其他類型的系統、 15 201108118 控制器I置'模組、處理器、或其等之任一組合整體或 部分地使肖。此外,料法可在可操作喊供S3®之方法 的全部或部分的各種類梨的編碼邏輯元件中使用,包括軟 體韌體、硬體、或其他形式的數位儲存媒體、電腦可讀 ㈣ '或邏輯轉或其等之任-組合。 爭忏低愧的方塊3〇〇開始。例如, J件可包括開始改變資訊處置系統之操作狀態的一使用者 =動事件、—非使用者啟動事件、或其等之多個組合。例 *事件可包括用以改變資訊處置系統之操作狀態的訊 产货、訊心按紐選擇、或其他形式的輸入。事件可被 =、’以致能包括多個處理系統之資訊處置系統中的資 作環产處理事件及產生目前沒有被資訊處置系統使用的操 在多:其中該等多個處理系統具有可被選擇性地致能及 例;個㈣統之間共享的硬體及軟體元件。在-些實施 用在其:㈣―處理系統的多個部分,以致能可能非意圖 例如,固處理系統或#訊處置线上的操作環境。 持裝置珐‘己里或膝上型電腦系統傳統上不能用來產生手 此置及諸如此類裝置的操作環境。因 資訊處置系統中的:::二讯處置系統的有限資源可被該 行動通崎置操作環境統存取和使用,以產生諸如 包括筆記·膝上型的操作環境。以此方式, 剛事件產生-縮減資源==資訊處置系統可根據所檢 在檢測一事件後, 兄 去可繼續到方塊302且資訊處置系 16 201108118 統的操作狀態可被決定。例如,操作狀態可包括資訊處置 系統的各種操作狀態,包括但不限於低功率狀態、待機、 冬眠、關閉、開啟、或各種其他操作狀態。檢測資訊處置 系統的一操作狀態後,方法可繼續到方塊304,且該方法可 檢測資訊處置系統中之第一處理系統的可利用資源。例 如,休眠模式可被檢測,因此,資訊處置系統中之第一處 理系統的有限資源可被啟動。例如,一通訊模組、一低功 率通訊匯流排、一低功率消耗處理器或控制器等可能是被 致能之第一處理系統的唯一資源。以一形式,資訊處置系 統的BIOS可被存取,以決定哪些資源可被致能。因此,檢 測一操作狀態及被致能資源後,該方法可繼續到方塊306且 基於該所檢測事件的一資源設定檔可被識別。例如,資源 設定檔可被儲存在資訊處置系統的一記憶體裝置中且可包 括用以致能處理該所檢測事件的多個資源項目。 存取資源設定檔後,該方法可繼續到方塊308且識別一 組資源以致能第一處理系統、第二處理系統、第η處理系統 或其等之任一組合中的資源。例如,第一處理系統的第一 組資源可與第二處理系統的第二組資源一起使用,以處理 所檢測事件或啟動一應用程式。以另一形式,第一處理系 統或第二處理系統中的一個或多個裝置或元件可被提供電 源至一主動操作狀態。因此,一電源資源可被耦接到一個 或多個裝置,以致能或為第一處理系統或第二處理系統中 的一個或多個額外的資源提供電源。以此方式,電源不需 要被施加到每一處理系統的所有裝置或元件且可根據需要 17 201108118 或期望使用資源設定檔被選擇性地啟動。 識別需致能的資源後,該方法可繼續到決策方塊31〇, 且決定第一處理系統中的資源是否應被致能。若資源應被 致月b,則s亥方法可繼續到方塊3 12,且第一處理系統中的特 疋貧源可被致能。例如,第一處理系統可包括可與一特定 事件及資源設定檔相關聯被致能的諸如顯示器的一輸出裝 置及諸如鍵盤的一輸入裝置。因此,該方法可致能第一處 理系統中的特定資源,且可繼續到決策方塊314。若在方塊 310,第一處理系統中的資源不需要被致能,則該方法可繼 續到決策方塊314且決定第二處理系統中的資源是否應被 致能。例如,第二處理系統可包括根據需要可被致能且與 第一處理系統中的被致能資源一起使用的一處理器、通訊 模組、軟體、或其他資源。若在決策方塊314,第二處理系 統中的資源需被致能,則該方法可繼續到方塊316,且致能 第一處理系統中的資源。例如,第二處理系統的資源可在 方塊318被識別,且可根據需要在方塊316被致能。 致能特定資源後,然後該方法可繼續到方塊318,且如 果期望的話,第一處理系統與第二處理系統的被致能資源 可被存取且可與所檢測事件相關聯使用。存取被致能資源 後,然後忒方法可繼續到決策方塊32〇,且決定存取資源是 否應被保持,該方法可繼續到方塊318。若在決策方塊32〇 存取不應被保持,則可繼續到方塊322,且第一處理系統與 第二處理系統的被致能資源可根據需要被去能。例如,被 致能資源可被去能,以根據需要使資訊處置系統返回到一 18 201108118 ‘ 先前或備選操作狀態。然後該方法可繼續到方塊324且監控 使用者及非使用者啟動事件,且可在檢測一事件後在方塊 300處重複。 第4圖繪示根據本揭露之一個層面的在400大致繪示的 配置成利用可修改操作狀態來使用縮減局部資源輸出資料 之資訊處置系統的功能方塊圖。資訊處置系統4〇〇包括耦接 到一北橋晶片404的一處理器402。時鐘406可輸出時序信號 到處理器402及資訊處置系統4〇〇的其他元件。北橋晶片404 可進一步被耦接到一第一雙行記憶體模組(DIMM)408及一 第二DIMM 410。北橋晶片404也可搞接到一視訊多工器 412,該視訊多工器412可操作以輸出視訊信號以在顯示器 414中被顯示。顯示器414包括一反相器與自動光感測器模 組416。北橋晶片404可進一步被耦接到一視訊交換器模組 418及一視訊圖形陣列(VGA)埠420。顯示器埠424可被耦接 到一顯示器埠交換器422,顯示器埠交換器422可操作以被 耗接到北橋晶片404及一 E擴充(Dock)模組474,該E擴充模 組474可擴展系統4〇〇的資源以存取電池、媒體基座、I/C)方 塊、或各種其他資源。 資訊處置系統400也包括耦接到北橋晶片4〇4的一南橋 晶片426。一DAI模組428可從來自BLT模組466的一輸入來 源466接收音訊信號。DAI模組428也可被耦接到一E擴充模 源474及一音訊旁路430。音訊旁路43〇可進一步被耦接到一 揚聲器與放大器432。該揚聲器與放大器432也可被耦接到 一麥克風與頭載式耳機模組434。南橋晶片426也可被耦接 19 201108118 到诸如RJ-11或POTS致能調變解調器的一調變解調器 436、及可操作以使用南橋晶片426耦接音訊輸出信號的一 音訊輸出模組440。 南橋晶片426也可被耦接到e模組托架442、序列先進技 術附件硬磁碟驅動機(SATA HDD)444 '及第一串列週邊介 面(SPI)快閃記憶體446。南橋晶片426也可被耦接到一串列 輪入輸出(sio)整合快閃記憶體模組448。該SI0整合快閃記 憶體模組448可被耦接到可指任何類型8 〇 2 !丨χ或其他短程 無線網路的無線保真度(WIFI)***模組450,一第二SPI 快閃記憶體模組452、一主機電源按鈕454、及一資源存取 按鈕456。鍵盤458可被耦接到一觸控板與KSI/KS〇模組 460。SI0擴充器模組462也可被耦接到SI〇整合快閃記憶體 448且可進一步被耦接到I/C) τρΜ模組464。1/〇可信賴平台 模組(TPM)模組464可被耗接到一生物特徵量測多工器468 及可操作以輸入使用者之生物特徵量測的一生物特徵量測 輸入來源470。 E擴充模組474也可藉由介面472被耦接到SI0擴充器模 組462。南橋晶片426可藉由一周邊電腦互連(pCI)快速匯流 排進一步被耦接到一I/O模組478、一PCI快速模組480。南 橋晶片426可使用資訊處置系統4〇〇的一USB匯流排進一步 被耦接到USB 2.0存取埠482。一 1/2小型卡(MiniCard)模組 484也可使用一PCI快速匯流排被耦接到南橋晶片426。資訊 處置系統400也可包括被耦接到南橋晶片426的小型卡無線 廣域網路(WWAN)模組488。 20 201108118 資訊處置系統400進一步包括一BLT模組490,該BLT模 組490可操作以被耦接到一第二顯示器492且配置成輸出一 視訊信號至視訊MUX 412以輸出至第一顯示器414。BLT模 組490可進一步被耦接到一個三(3)路多工器494。該三(3)路 多工器494可多路傳輸MiniCard WWAN 488、BLT模組 490、及被耦接到南橋晶片426之USB匯流排的USB信號。 南橋晶片426可藉由USB匯流排進一步被輕接到一藍牙(bt) 卡496。南橋晶片426也可藉由資訊處置系統4〇〇的pci快速 匯流排被麵接到母版(LOM)498上的區域網路(LAN)。LOM 498也可被耦接到PCI快速模組480。資訊處置系統4〇〇也包 括一電源與充電系統499,該電源與充電系統499可操作以 將電源分配給資訊處置系統4〇〇的每一元件。 第5圖大致以5 00繪示一利用縮減資源之資訊處置系統 的功能方塊圖,根據本揭露内容之一個層面以有限資源輸 出資料。資訊處置系統500包括在第4圖中所繪示的資訊處 置系統400的資源。此外,資訊處置系統細的多個部分可 被致能,以致能應用程式以使用f訊處置系統5〇〇的有限資 源輸出資料及接收輸入。例如,第5圖繪示諸如顯示器514 的具有「虛」線的若干元件。如在第5圖切繪示的,虛線 指示-被啟動或被致能組件。類似地,諸如處理器5〇2的具 有「實」線的元件指示被停用或被去能的裝置或元件。因 此,虛線與實線只被提供以在第5圖中緣示被致能的组件 (可利用資源)或被去能的組件(不可利用資源),且不庫以任 何方式被理解為限制資訊處置系統則之任何元件、裝置等 21 201108118 的功能或能力。 在貝§fl處置系統5GG的操作期間,資源可以—種或多種 方式被啟動。例如,使用者可選擇BLT存取按鈕556,且SI〇 整合快閃s己憶體548可開始致能資源以致能一 BLT操作狀 態。以一形式’ BLT操作狀態可透過致能鍵盤558、觸控板 KSI/KSO模組560、SIO整合快閃記憶體548、MUX 568、生 物特徵罝測輸入模組570、三(3)路]^1;乂 594、BLT模組590、 MiniCard WWAN模組588、第二顯示器592、DAI模組528、 音訊旁路模組530、揚聲器與放大器532、電源/充電系統 599、視訊MUX512、顯示器514、反相器與ALS模組516、 相關聯互連匯流排、或其等之任一組合來實現。其他模組 也可根據需要或期望被啟動。 在第5圖中所繪示的例子中,沒有用來輸出blt操作狀 態之資訊處置系統5〇〇的各種其他裝置或元件可保持被停 用、去能、或被置於一降低功率操作狀態。例如,處理器 502可被置於一降低功率狀態、或甚至處於一「關閉」狀態, 其中該處理器可能不可處理資料。因此,資訊處置系統500 可在檢測一事件後致能足以輸出BLT操作狀態的一有限數 量資源’以分配在不使用處理器5〇2或其他各種資源的前提 下足以處理、輪出、及接收輸入的一縮減資源集。以此方 式,資訊處置系統5〇〇不需要將資訊處置系統5〇〇的所有元 件初始化,以允許使用者存取資訊處置系統500的BLT操作 狀態。 例如’在一個實施例中,資訊處置系統500可被提供處 22 201108118 於可使用一無線模組,諸如MiniCar(i WWAN模組588、ΒΤ 卡550、或可被耦接到該資訊處置系統5〇〇的另一無線模組 接收無線通訊信號的一休眠或降低功率操作狀態。接收無 線信號可被檢測為進入信號,該進入信號配置成由智慧型 行動電話裝置、黑莓機裝置、或任何其他類型手持無線裝 置接收。一經識別資訊處置系統500可啟動各種資源以回應 所檢測訊息。例如,以一形式,資訊處置系統5〇〇可致能一 揚聲器以輸出指示訊息已被接收的使用者所選或訂製音訊 輸出或α畢聲(beep)〇嗶聲或音訊輸出可被訂製以識別一特定 發达器。以一形式’資訊處置系統500可包括一設定檔,該 设定檔可包括根據接收無線訊息的一輸出偏好。例如,設 疋檔可包括致能容許自動回應特定類型訊息、發送器、訊 息來源等的自動僕人特徵。自動僕人可回應訊息而不比啟 動鍵盤、顯示器、或各種其他資源。接收訊息之各種其他 類型的低功率回應也可根據需要被致能。 資訊處置系統5〇〇的特定資源可在BT卡55〇中被識別且 被致能以致能一操作環境以輸出訊息。例如,識別接受黑 每機訊息後’諸如鍵盤558、觸控板模組56〇、SI◦整合快閃 記憶體模組548、視訊MUX 512、第一顯示器514、反相器 與ALS 516、電源與充電系統599的資源及足以為分配資源 提供電源的各種充電電路、及各種互連電路、匯流排、或 足以輸出接收訊息的其等之多個組合可被致能。此外,作 業系統及/或應用程式可基於接收訊息的類型被初始化。例 如’ BUm組可識別訊息且可將一作冑系統及/或足以輸 23 201108118 出§fl息的一個或多個應用程式初始化。例如,足以輸出訊 息的一應用程式或其他傳訊應用程式可被初始化,且足以 輸出sfl息的資源可被決定及致能。以此方式,一有限數目 的元件或資源 '及應用程式及/或作業系統可被致能,允許 資訊處置系統500從縮減資源操作狀態受益,從而節省電池 或功率消耗,而同時致能存取一特定應用程式(例如黑莓機 電子郵件應用程式)。 以一形式,識別需致能的一操作狀態後,第一顯示器 514的操作模式可被識別。例如,第一顯示器514可包括儲 存一識別符的一記憶體裝置,該識別符包括用以決定第一 顯示器514之操作能力的資訊。第一顯示器514的背光(圖未 示)可被致能,且一獨立圖形顯示器單元或處理器(圖未示) 可用來處理及輸出内容。例如,第一顯示器514也可在可包 括啟動第一顯示器514之背光的一降低功率狀態顯示資 訊。因此,將資訊處置系統500的有限資源操作狀態初始化 可包括識別第一顯示器514的可利用操作狀態及使用資訊 處置系統500的有限資源決定足以輸出一操作環境的操作 狀態。 根據另一層面,反相器與ALS模組516可用來決定處於 一有限資源操作狀態之第一顯示器514的操作狀態。例如, 反相器與ALS模組516可被致能且可檢測資訊處置系統5〇〇 外部的周圍光且在一有限資源操作狀態期間自動調整第一 顯示器514的強度或顯示器輸出。 根據又一層面,Minicard WWAN 588可使用 Minicard 24 201108118 WWAN 588的一處理器併入BLT模組590。例如,MiniCard WWAN可包括多個處理器(圖未示)。一第一處理器可用來 處理無線信號且一第二處理器可檢測在該等無線信號中所 傳送的資訊。第二處理器也可配置成提供可操作以識別在 無線信號中接收之一類型資訊’且決定需致能資源以輸出 接收之一特定類型資訊的BLT模組。例如,BLT模組590可 識別無線信號中的電子郵件通訊訊息且可決定一電子郵件 應用程式及資源以輸出電子鄱件通訊訊息而不必將整個資 訊處置系統500初始化。 第6圖繪示根據本揭露之一個層面的使用釋出資源之 資訊處置系統的功能方塊圖。若所繪示的,資訊處置系統 600包括在第4圖中所繪示之資訊處置系統400的資源。資訊 處置糸統600包括BLT存取按紐656、一第二顯示琴692、 及一音机旁路模組630,其中「虛」線指示這些模組被置於 「關閉」或「降低功率」细作狀態。例如,資訊處置夺统 600可被初始化至可包括利用處理器602及相關聯元件或裝 置、北橋晶片604及相關聯元件或裝置、及南橋晶片626及 相關聯元件或裝置的一操作狀態。因此,如由虛線所指示 沒有被啟動的裝置或元件包括音訊旁路630、BLT存取按鈕 656、及第一顯示器692。例如’音訊旁路630、blt存取按 鈕656、及第二顯示器692可用來存取一應用程式,該應用 程式可被提供使用處理器602的一作業系統。因此,作業系 統可存取足以輸出说息的一應用程式,因此,Blt存取按 鈕、音訊旁路630、及第二顯示器692不需用來輸出在一減 25 201108118 小操作狀態接收的訊息。以一示範性形式,處理器6〇2可用 來致能、去能、或保持使用BLT模組690及各種其他元件。 例如,當使用者將資訊處置系統600切斷電源時,足以在一 低功率狀態接收訊息的B LT模組690及各種其他元件可被 致能。 第7圖繪示根據本揭露之一個層面的在7〇〇大致繪示的 配置成利用可操作以分配資訊處置系統7〇〇之有限資源的 資源分配模組702的資訊處置系統的功能方塊圖。資源分配 模組702可被耦接到一多工器7〇4,該多工器7〇4可操作以多 路傳輸一單通道低壓顯示器信號(LVDS 1 CH)及一 NCJXD—I2S信號。以一形式,EC整合快閃記憶體710可包 括可操作以用來啟動資訊處置系統7〇〇之各種資源的一 BIOS 750。在另一實施例中,NC_LCD_I2S信號可被直接耦 接到BLT模組702且可由該BLT模組702選擇性地致能。視訊 MUX 704將多工信號耦接到由一顯示器電源(LCD_Vdd)供 電的一顯示器706。顯示器706包括由一反相器電源 (INV_PWR_SRC)供電的一反相器與ALS模組708。 該反相器與ALS模組708可藉由一 SMBUS被耦接到一 EC整合快閃記憶體模組710。該EC整合快閃記憶體模組710 也可被耦接到可操作以啟動一 B LT操作模式的一 B LT電源 按鈕712。該EC整合快閃記憶體模組710也可被耦接到一鍵 盤714,該鍵盤714可包括具有一電子郵件按鈕716、一日曆 按鈕718、一聯絡人按鈕720、及一網際網路接取按鈕722的 一打字機鍵盤。鍵盤714也可根據需要或期望包括各種其他 26 201108118 類型的功能鍵。 EC整合快閃記憶體模組710也可被耦接到一觸控板 724,該觸控板724致能使用可在顯示器706上被顯示的指標 或指向裝置。EC整合快閃記憶體模組也可被耦接到一蓋式 開關(LID_SW)輸入信號726,該LID_SW輸入信號726可操 作以指示一膝上型電腦或其他類型行動資訊處置系統的蓋 子或顯示器何時可被打開或合上。額外的信號也可在BLT 模組702與EC整合快閃記憶體模組710之間被輸入、輸出、 或其等之多個組合,包括但不限於無線電去能信號 (Radio_disable #)、付費 BLT檢測信號(PAID_BLT_DET#)、 BLT重新設定信號(BLT_RST#)、BLT保持狀態信號 (BLT_SUS_State) ' SMBUS 鍵盤致能信號 (SMBUS_1_KB—TP)、及 SMBUS 2 CC信號(SMBUS_2_CC)。 資訊處置糸統700也可包括麵接到一生物特徵量測模 組728的一USB MUX 726,該生物特徵量測模組728可操作 以輸入使用者的生物特徵量測。該USB MUX 726可進一步 被耗接到資訊處置系統700的一主機處理器730。BLT模組 702可進一步將一 WWAN存取信號(USB_WWAN/H0ST HS) 耦接到一個三(3)路MUX 732,該三(3)路MUX 732配置成使 用一 USB致能匯流排被輛接到一 MiniCard WWAN734及主 機處理器730。BLT模組702也可將一第二顯示器信號 (USB—second顯示器信號)耗接到一第二顯示器736。該BLT 模組702也可使用一 I2S匯流排將一音訊旁路信號(I2s_BLT) 輕接到一音訊旁路模組738 ’及藉由一 j2s匯流排耦接到一 27 201108118 DAI模組740。該DAI模組74〇可藉由該匯流排進一步被耦 接到主機處理器730。 此外,用於702的介面(例如7〇2a)可包括可用來擴展7〇2 之功能的額外的接腳或耦合元件。 值得注意的是,以上在一般性描述或例子中所述的所 有活動不都是所需要的,特定活動的—部分可能是不需要 的,且除那些所述活動之外,一個或多個另外的活動可被 執行。再者,活動被列出的順序未必是該等活動被執行的 順序。 本說明書以及說明書中所述實施例的圖式係欲供對於 各種實施例之結構的一般性理解。說明書與圖式不欲當成 使用s兒明書中所述結構或方法之裝置與系統之全部元件與 特徵的詳盡與全面描述。在檢閱本揭露後,許多其他的實 施例對於那些本技藝領域中具有通常知識者而言可能是顯 而易見的。其他的實施例可被使用且從本揭露推知,因此 結構代替、邏輯代替、或另一種改變可在不脫離本揭露之 範圍的前提下被做出。因此,本揭露需被認為是說明性的 而非限制性的。 為了清晰起見’於此在多個獨立實施例之背景脈絡中 予以描述的某些特徵也可在一單一實施例被組合提供。相 反地’為了簡潔起見’在一單一實施例之背景脈絡中予以 描述的各種特徵可獨立地或以任何次組合之形式被提供。 再者,涉及以範圍陳述的值時包括該範圍内的每一值。 優勢、其他優點、及問題解決方案以上已相關於特定 28 201108118 * 實施例予以描述。然而,該等優勢、優點、問題解決方案、 及可致使任何優勢、優點、或解決方案發生或變得更加明 顯的任一(多個)特徵不被解釋為申請專利範圍之任一項或 全部的關鍵、需要、或必要特徵。 以上所揭露標的需被認為是說明性的,而非限制性 的,且所附申請專利範圍意欲涵蓋落入本發明之範圍内的 任何及所有這些修改、增強、及其他實施例。因此,在法 律允許的最大範圍下,本發明的範圍將由下面申請專利範 圍及其等效物的容許最廣解釋決定,且不應受前面詳細描 述限制。 c圖式簡單說明3 第1圖繪示根據本揭露之一個層面的資訊處置系統的 方塊圖; 第2圖繪示根據本揭露之一個層面的包括分配資源之 可操作資訊處置系統的功能方塊圖; 第3圖繪示根據本揭露之一個層面用以存取資訊處置 系統中之資源的一種方法的流程圖; 第4圖繪示根據本揭露之一個層面的一資訊處置系統 的功能方塊圖,該系統包括輸出適切與非適切縮減資源的 可修改操作狀態以使用局部資源輸出非適切内容; 第5圖繪示根據本揭露之一個層面的利用縮減資源之 資訊處置系統的功能方塊圖,該系統使用局部資源輸出非 適切内容; 第6圖繪示根據本揭露之一個層面的利用分配及釋出 29 201108118 資源之資訊處置系統的功能方塊圖,該系統使用局部資源 輸出適切内容;以及 第7圖繪示根據本揭露之一個層面的資源分配模組功 能方塊圖,該分配模組分配資訊處置系統的局部資源以輸 出非適切内容。 【主要元件符號說明 100、200、400、500、600、 700.. .資訊處置系統 102.. .事件檢測模組 104、702...資源分配模組 106…資源設定檔 108、122、126、204...處理系 統 110、124、128、222、226... 非共享資源 112.. .共旱輸入資源 114.. .共享周邊資源 116···共享電源資源 118.. .共享應用程式資源 120…共享輸出資源 202.. ·主機處理系統 206…資源分配模組 208、210、212、214...匯流排 218…事件檢測模組 220.. .資源設定檔源 224.. .周邊交換模組 228.. .輸入裝置 230、414、492、514、592、 692、706、736...顯示器 232.. .電源資源 234.. .主機處理電源 236.. .共享周邊設備 238、240、750…基本輸入/輸 出系統 300~324...流程步驟 402、502、602...處理器 404、604...北橋晶片 406.. .時鐘 408、410…雙行記憶體模組 412、512…視訊多工器 416、516、708...反相器與自 動光感測器模組 30 201108118 418···視訊交換器模組 420…視訊圖形陣列(VGA)蜂 422···顯示器埠交換器 424···顯示器埠 426'626··.南橋晶片 428、528、740...DAI模組 430、530、630..·音訊旁路 432、532…揚聲器與放大器 4·34…麥克風與頭載式耳機模 組 436…調變解調器 440…音訊輸出模組 442…E模組托架 444…序列先進技術附件硬磁 碟驅動機(SATA HDD) 446…串列週邊介面(spi)快閃 記憶體 448、548…串列輸入輸出(SIO) 整合快閃記憶體模組 450.. ·無線保真度(WIFI)定位 器模組 452.. .5.I快閃記憶體模組 454·..主機電源按鈕 456.. .資源存取按鈕 458、558、714..·鍵盤 460、560、724...觸控板與 KSI/KSO 模組 462.. .510.充器模組 464…I/O可信賴平台模組 (TPM)模組 466、490、590、690...BLT 模 組 468…生物特徵量測多工器 470、570…生物特徵量測輸入 來源 472.. .介面 474.. . E擴充模組 478.. .1.O 模組 480·.·PCI快速模組 482.. .USB 2.0 存取i享 484…1/2小型卡模組 488'588 ' 734·.·小型卡無線 廣域網路模組 494、594、732...三⑶路多工 器 496、550...藍牙卡 498.. .母版 499、599…電源與充電系統 31 201108118 556、656...BLT 存取按鈕 568、704.··多工器 710.. .EC整合快閃記憶體 712.. .BLT電源按鈕 716.. .電子郵件按鈕 718…日曆按鈕 720.. .聯絡人按鈕 722.. .網際網路接取按鈕 726…LID_SW輸入信號 728.. .生物特徵量測模組 730.··主機處理器 738.. .音訊旁路模組 32201108118 VI. INSTRUCTIONS: [Technical field of inventions 3] Field of disclosure This disclosure relates generally to information processing systems and, more particularly, to systems and methods for enabling resources in information processing systems. Background As the value of information and its use continue to increase, individuals and businesses seek geeks to process and store information. One option is an information processing system. Information processing systems generally process, edit, store, and/or transmit information or materials for business, personal, or other purposes. Because the needs and requirements of technical and information processing may vary between applications, about how poor information is disposed, how information is disposed of, how much information is processed 'storage, or transmission, and how information can be quickly caught and effectively The handling, storage, or delivery of the §fl disposal system may also be different. Changes in the information handling system allow information disposition to be "complex or for a specific user or specific use configuration, such as financial transaction processing, airline booking, corporate data storage or global communications. In addition, the information handling system can be configured to use The invention is configured to process, store, and transfer (4) hardware and software components, and may include one or more computer systems, data storage systems, and network systems. Specifically, an information processing system is provided which includes: an event detection module operable to detect a user activation 201108118 event and a non-user initiation event; a resource allocation module coupled to the event detection module The resource allocation module is operable to map a first detection event to a first operational state of a first processing system; a second processing system, responsive to the resource allocation module and operable to access the first a shared resource of a processing system; and wherein the resource allocation module is configured to initiate a desire to use a shared resource of the first processing system The output of the second processing system is shown in the following. For the sake of simplicity and clarity of the description, the elements illustrated in the drawings are not necessarily drawn to scale. The dimensions of the elements are exaggerated relative to the other elements. The embodiments incorporating the teachings of the present disclosure are illustrated and described in relation to the drawings in this specification, wherein: Figure 1 continues with an information handling system in accordance with one aspect of the present disclosure. FIG. 2 is a functional block diagram of an operational information processing system for distributing resources according to one aspect of the disclosure; FIG. 3 is a diagram for accessing an information processing system according to a layer of the present disclosure; A flow chart of a method for resources; FIG. 4 is a functional block diagram of an information processing system according to one aspect of the disclosure, the system includes outputting appropriate and non-conforming resources to modify operational states to use local resources. Outputting an unsuitable flash capacity; FIG. 5 is a functional block diagram of a poor handling system using reduced resources according to one aspect of the disclosure, the system Using local resource output 邡201108118 " appropriate content; Figure 6 is a functional block diagram of an information processing system utilizing allocation and release resources according to one aspect of the disclosure, the system uses local resources to output appropriate content; and the seventh The figure illustrates a functional block diagram of a resource allocation module according to one aspect of the disclosure, the allocation module allocates local resources of the information processing system to output non-proper content. The same reference symbols are used in different drawings to indicate similar or identical [Embodiment 3] The following description of the drawings is provided to facilitate understanding of the teachings disclosed herein. The following discussion will focus on specific embodiments and examples. This focus is provided to assist in describing the teachings and should not be construed as limiting the scope or applicability of the teachings. However, other teachings may of course be used in this application. The teachings are also applicable to other applications and to several different types of architectures such as decentralized computing architectures, client/server architectures, or intermediate software server architectures and associated components. For the purposes of this disclosure, an information handling system may include any collection of means or means operable to calculate, classify, process, send, receive, retrieve, originate, exchange, store, display, Indicate, detect, record, reproduce, dispose of, or use any form of information, intelligence, or material for commercial, scientific, control, entertainment, or other purposes. For example, the information processing system can be a personal computer, a PDA, a consumer electronic device 201108118, a network server or storage device, a switching router, a wireless router, or other network communication device, or any other suitable device, and of a size and shape. Performance, features and prices can vary. The information processing system may include a memory (electrical (eg, random access memory, etc.), non-electrical (read only δ mnemonic, flash sigma, etc.) or any combination thereof), One or more processing resources, such as a central processing unit (CPU), a graphics processing unit (GPU), hardware or software control logic, or any combination thereof. Additional components of the information handling system may include one or more storage devices 'one or more communication ports for communicating with external devices, and various combinations such as a keyboard, mouse, video/graphic display, or the like. Input and output (I/O) is split. The information handling system can also include one or more bus bars that are operable to communicate communication messages between various hardware components. Multiple parts of the information handling system itself can be considered an information handling system. When portions of the information processing system are referred to as "devices", "modules", or the like, they may be configured as hardware, software (which may include firmware), or the like. For example, a portion of the information handling system device can be, for example, an integrated circuit (such as an application specific integrated circuit (ASIC), a field programmable gate array (FPGA), a structured ASIC, or a device embedded in a larger wafer) Hardware, card (such as Peripheral Component Interface (PCI) card, PCI Express Card, Personal Computer Memory Card International Association (PCMCIA) card, or other such expansion card), or system (such as master, on-wafer system (SoC) ), or a separate device). Similarly, the device may be a software, including a chapter body embedded in a device such as a Pentium processor class or PowerPCTM brand, or other such device, or an environment-related software that can operate an information handling system. The device can also be 201108118 to be a combination of any of the foregoing hardware or software examples. It is worth noting that the information handling system can include an integrated circuit or a board grade product having multiple parts or any combination of hardware and software. Devices or program products that communicate with one another do not need to be in constant communication with each other unless explicitly stated otherwise. In addition, devices or program products that communicate with each other can communicate indirectly or indirectly via one or more intermediate media. The embodiments discussed below describe, in part, a decentralized computing solution that manages all or part of the communication interaction between network elements. In this context, communication interactions can be used to send information, send information, request information, receive information, receive information requests, or any combination thereof. Thus, the communication interaction can be one-way, two-way, multi-directional, or any combination thereof. In some cases, communication interactions can be complex and involve two or more network elements. For example, a communication interaction can be a "talk" between a client and a server or a series of related communications - each network element sending information to and receiving information from another network element. Communication interactions between network elements are not necessarily limited to one particular form. A network element can be a node, a piece of hardware, a software, a firmware, an intermediate software, another component of a computing system, or any combination thereof. In the following description, the flow technique can be described in a series of continuous actions. The sequence of actions and the party performing the actions can be freely changed without departing from the scope of the present teachings. Actions can be added, deleted, or changed in several ways. Similarly, actions can be reordered or looped. In addition, although processes, methods, algorithms, or the like may be described in a sequential order, these processes, methods, calculus 201108118 methods, or any combination thereof, may be operable to provide a process, a method, or an algorithm + Some of these actions are available. The points are executed simultaneously (e.g., the actions are performed in parallel), or may be performed in any combination of the whole time, the middle, or the like. Knives, the terms "including", "including", "having" or any other variations thereof are intended to cover non-exclusive inclusions. For example, the processes, methods, articles, and garments that contain the features are not necessarily limited to the material = column but may include other process features that are not explicitly listed, and other features inherent to the device. Furthermore, unless explicitly stated to the contrary, "either refers to mutual or non-exclusive or. For example, the condition is determined by the following conditions - the full t A is true (or the existence is false), A is false (or does not exist) and B is true (or exists), and both are true (or there is a similar use of one) is used to describe the components and components described herein. This is done for convenience and The general meaning of the scope of the invention is to be understood as being inclusive of one or at least one and the singular also includes the plural, or vice versa, except that the meaning is not obvious. For example, when a single device is described herein, More than one device may be used in place of a single device. Similarly, where more than one device is described herein, a single device may be substituted for that device. Unless otherwise defined, all technical and scientific terms used herein have The same meaning as commonly understood by one of ordinary skill in the art to which the present invention pertains, although methods and materials similar or equivalent to those described herein can be used in the practice or testing of embodiments of the present invention. Suitable methods and materials are described below. All publications, patent applications 201108118 and examples are merely examples, patents, and other references mentioned herein are incorporated by reference, unless a particular section is In the event of a conflict, this statement = positive = definition "will have a dominant role. In addition, materials, methods, descriptive and not intended to be limited. To some extent, specific materials, Many details relating to processing actions and circuits are known, and the information processing system and the method of using the information processing system can be found in textbooks and other sources in the field of electronics and software technology. Description - An exemplary, unrestricted system description is described in the previous section. The method of using the system is described. Some of the functions of the modules in the system are described using the system. The description of the method immediately following the description of the system and the module The utility of the system and its modules will become more apparent. According to one aspect of the disclosure, an information handling system can include an operative to detect The user-initiated event and the non-user-initiated event-event detection module. The information handling system can also include a resource allocation module coupled to the event detection module. In one form, the resource allocation module is operable to The first detection event is mapped to a first operational state of the first processing system. The information handling system can also include a second processing system that is responsive to the resource allocation module and operable to access the shared resources of the first processing system. The group may be configured to initiate output of information intended for output by the second processing system using the shared resources of the first processing system. According to another aspect of the disclosure, a method of enabling resources in an information handling system is disclosed. Including detecting an event operable to initiate access to a first set of resources of the first processing system. The method can also include identifying a first profile of the 201108118 first processing system. In one form, the first profile can include The plurality of resource allocation items of the first information processing system accessed by the processing system. The method can also include enabling the first set of resources of the first processing system using the plurality of resource allocation items and accessing the first set of resources using the second processing system. In accordance with yet another aspect of the present disclosure, an information handling system can include a first processing system having a first host processor operative to process information using a first set of available resources. In one form, the first set of available resources may include a shared display resource including a memory device that stores display resolution values, and a share configured to receive input by a shared operating environment and a non-shared operating environment Input device. The information handling system can also include a second processing system having a second host processor operable to process information for output by the first processing system, and operable to access display resolution values to format the information for use A video translation module that shares the display output. The information handling system can further include an event detection module configured to detect user initiated events and non-user initiated events. In one form, the event detection module can be further configured to initiate access to the first processing system using a portion of the second processing system. The information handling system can further include a resource allocation module operable to determine available resources of the first processing system and the second processing system. 1 is a block diagram of an exemplary embodiment of an information handling system, generally designated 100. In one form, the information handling system 100 can be a computer system such as a desktop computer, a notebook computer, a server, or various other types of information handling systems. As shown in Figure 1, the information handling system 10 201108118 100 can include an event detection module 102 that is operable to detect user initiated and non-user initiated events. The event detection module 102 can be coupled to a resource allocation module having access to one or more resource settings buildings 106. The information handling system 100 can also include a first processing system 108 coupled to the first non-shared resource 110 of the first processing system 108. In one form, the first processing system 108 can include a main chipset, processor, memory, communication bus, peripherals, applications, a basic input/output system (BIOS), or any combination thereof (not shown) Show). The first processing system 108 can also include a plurality of shared resources including any of a shared input resource 112, a shared peripheral resource 114, a shared power resource 116, a shared application resource 118, a shared output resource 120, or the like. . The first processing system log can be coupled to the resource allocation module 104, the resource allocation module 104 operable to allocate shared resources to be used according to events detected by the event detection module 102, and _ or more related Union resources set Tan 106. In one form, the shared resources ip, 114, 116, 118, 120 can be configured as part of the first processing system 1 〇 8 and can be accessed by one or more processing systems. In other forms, one or more shared resources may be provided external to the first processing system 108. According to another aspect, the information handling system 1A can also include a second processing system 122 that includes a second non-shared resource 124. The second processing system 122 can be coupled to one or more of the shared resources 112, 114, 116, 118, 120 of the first processing system 108. The second processing system 122 can be further coupled to the resource allocation module 104, which is operable to allocate resources to be used by the second processing system 122. In addition, the resource allocation module 104 can be further coupled to the nth processing system 126, the nth processing system 126 can operate 201108118 to be lightly coupled to the shared resources ii2, 114, 116 of the first processing system 1-8. One or more of 118, 120. The second processing system 126 can further include an nth non-shared resource 128. The event detection module 1〇2 can detect any combination of user initiated events, non-user initiated events, or the like during operation. For example, a user launch event can include a user launching a button, button, or other type of hardware 'software', or a user-selectable interface, or any combination thereof, that can generate a user-initiated event. For example, the user can select a button to access a messaging application of the information handling system 100. Therefore, the event detection module 102 can detect the request to access the messaging application and couple the event request to the resource allocation module 104. According to yet another aspect, the event detection module 1〇2 can detect non-user initiated events. For example, the information processing system 1 can include a communication module (not shown) operable to receive communication signals by wireless communication, terrestrial or wired communication, or any combination thereof. The information handling system 1 can detect non-user initiated events and can couple the input recognition detection of the event to the resource allocation module 104. The resource allocation module 112 can use the detected event to identify the resource profile 106' and begin to initiate resources to handle the non-user initiated event. For example, 'resource profile 〇6' may include a list of desired resources for the first processing system 〇8, the second processing system 12-2, the η processing system 126, or any combination thereof. The resource allocation module 104 can then use the detected event to start the resource and the available resources based on the resource set to process the event. In one form, the information handling system 100 can detect the transmission to the information handling 12 . 201108118 Non-user startup event for I sub-device. For example, the detection module can be configured to detect a formatted message received by a smart light, a black device, or any type of electronic device configured to receive a message. For example, the tribute handling system _ may include a communication module (not shown) that can operate a wireless message such as an smS network, wireless communication, which is operatively transmitted to transmit a message. Zhou Lu, Blackberry enabled, or any other type of messaging enablement, line or cable network. According to the _ level event detection module service, the detected input handle can be connected to the machine. Or other format) The resource detected by the message is 1〇4. Therefore, the resource allocation module 1〇4 can access the resource profile and determine the f source configuration file of the event and start resource allocation to process the black per In an exemplary form, the information handling system 100 can include sufficient resources to detect a low power operational state operation of the wireless signal. Accordingly, the resource allocation swap 104 can determine the current operational state of the information handling system 1()(), And enabling resources such as the second processing system 122, the shared input resource 112, the shared power resource 116, the shared application resource 118, the shared output resource 12A, or any combination thereof, to process and A pair of responses to receive wireless signals are output. Thus, an operating environment for outputting responses to a message, such as a BlackBerry message, can be enabled using a limited number of resources without having to initialize additional resources of the information handling system 100. For example, A shared peripheral resource 114, such as a display, can be accessed to output a message using the second processing system 122. Additionally, the keyboard or other input device of the first processing system 108 can be powered to enable the user to respond to the message. Thus, a limited resource The operating environment can be generated by 201108118 to allow acceptance and response to messages without having to power the entire information handling system 100. In this manner, a laptop or notebook system can be used to receive applications that may be intended to be received by a BlackBerry or other type of communication device. Message, allowing users to view messages using larger displays relative to BlackBerry devices or smart mobile phone devices' and using the keyboard and display of portable or notebook computer systems and associated input devices to draft and respond as needed Message. Figure 2 depicts a layer according to the disclosure. A functional block diagram of an operational information handling system 2 that allocates resources. The information handling system can include a host processing system 202, which can include a main CPU, a main CPU chipset, memory, and a Host operating system 202. The host processing system 202 can also include a first BIOS 238 that is operative to enable resources accessible by the host processing system 202. The information handling system 200 can also include what is generally referred to as A second processing system of the processing system 204, the second processing system can include an auxiliary CPU, an auxiliary CPU chipset, auxiliary memory, and an auxiliary operating system. The second processing system 204 also includes a second BIOS 240. The second BIOS 240 is operative to enable resources accessible by the second processing system 204. In a form, the second processing system 204 can include a BIOS expansion or input that can be shared by the host processing system 202. According to a level, host processing system 202 and second processing system 204 can be coupled to a resource allocation module 206. For example, host processing system 202 can be coupled to resource allocation module 206 using a first bus 208 and a second bus 210. In one form, the first bus bar 208 can include a low pin count 14 201108118 ' (LPC) bus bar, and the second bus bar can include a system management bus bar (SMBUS). In addition, the second processing system 204 can be coupled to the resource allocation module 206 using a third bus bar 212 and a fourth bus bar 214. In one form, the triple bus bar 212 can include a PS2 bus bar, an RS232 bus bar, a SPI bus bar, or other type of bus bar. In another form, the fourth bus 214 can include an SMBUS, or other type of bus, as desired. The information handling system 200 can also include an event detection module 218 coupled to the resource allocation module 206 and a resource profile source 220 stored in a memory and accessible by the resource allocation module 206. Host processing system 202 can also be coupled to first non-shared resource 222 and a peripheral switching module 224. The second processing system 202 can be coupled to the second non-shared resource 226 and the peripheral switching module 224. Resource allocation module 206 can also be lightly coupled to an input device 228 such as a keyboard, pointing device, or the like. The resource allocation module 2〇6 can also be coupled to a display 230' such as a flat screen or flat panel display that can include a backlight and ambient light sensing (ALS) capabilities. The resource allocation module 2〇6 can be consuming to the power resource 232, which is operable to provide power to the second processing system 204 and output host processing power 2 3*. The peripheral switching module 224 can be rushed to one or more shared peripheral devices 236. Figure 3 is a flow chart showing a method for accessing resources in a resource handling system in accordance with one aspect of the present disclosure. Figure 3 may be in the "Information Processing System 100 as described in the Figures, the Information Processing System 2 described in Figure 2," in the fourth section, operable to use all or a portion of the method of Figure 3. The information processing system described in the figure, or any other type of system, 15 201108118 controller I set 'module, processor, or any combination thereof, in whole or in part to make Xiao. In addition, the method can be It can be used in the coding logic of various pear-like types that can be manipulated for all or part of the S3® method, including software firmware, hardware, or other forms of digital storage media, computer readable (4) or logical rotation or the like. The task-combination begins with a low-lying block. For example, the J piece can include a user-action event that starts changing the operational state of the information handling system, a non-user-initiated event, or the like. The combination of the event may include a message, a heart button selection, or other form of input to change the operational status of the information handling system. The event may be =, 'to enable the processing of information including multiple processing systems Funding in the system Loop processing events and the generation of operations that are currently not used by information processing systems: where the multiple processing systems have selectively enabled and exemplified; hardware and software components shared between the four systems. Some implementations are used in: (d) - the various parts of the processing system, such that the operating environment may be unintended, for example, on a solids handling system or on a disposal line. The device is traditionally used in laptop systems. It cannot be used to create an operating environment such as a device and the like. The limited resources of the :::2 communication processing system in the information handling system can be accessed and used by the action of the action current environment to generate notes, including notes. The laptop operating environment. In this way, the just event generation-reduction resource == the information handling system can continue to the block 302 and the information processing system 16 201108118 operating state according to the detected event. Can be determined. For example, the operational status can include various operational states of the information handling system including, but not limited to, low power status, standby, hibernation, shutdown, on, or various thereof After operating an operational state of the information handling system, the method can continue to block 304, and the method can detect available resources of the first processing system in the information handling system. For example, the sleep mode can be detected, therefore, The limited resources of the first processing system in the information processing system can be activated. For example, a communication module, a low power communication bus, a low power consumption processor or controller, etc. may be the first processing system enabled. A unique resource. In one form, the BIOS of the information handling system can be accessed to determine which resources can be enabled. Thus, after detecting an operational state and enabled resources, the method can continue to block 306 and based on the A resource profile of the detected event can be identified. For example, the resource profile can be stored in a memory device of the information handling system and can include a plurality of resource items to enable processing of the detected event. After accessing the resource profile, the method can continue to block 308 and identify a set of resources to enable resources in any combination of the first processing system, the second processing system, the nth processing system, or the like. For example, a first set of resources of the first processing system can be used with a second set of resources of the second processing system to process the detected event or launch an application. In another form, one or more of the first processing system or the second processing system can be powered to an active operating state. Thus, a power source can be coupled to one or more devices to enable or provide power to one or more additional resources in the first processing system or the second processing system. In this manner, the power supply does not need to be applied to all of the devices or components of each processing system and can be selectively activated as needed or as desired using a resource profile. After identifying the resources to be enabled, the method can continue to decision block 31 and determine if the resources in the first processing system should be enabled. If the resource should be dated b, the s-hai method can continue to block 3 12 and the e-poor source in the first processing system can be enabled. For example, the first processing system can include an output device such as a display and an input device such as a keyboard that can be enabled in association with a particular event and resource profile. Thus, the method can enable a particular resource in the first processing system and can proceed to decision block 314. If at block 310, the resources in the first processing system need not be enabled, then the method can continue to decision block 314 and determine if the resources in the second processing system should be enabled. For example, the second processing system can include a processor, communication module, software, or other resource that can be enabled as needed and used with enabled resources in the first processing system. If at decision block 314, the resources in the second processing system need to be enabled, then the method can continue to block 316 and enable the resources in the first processing system. For example, the resources of the second processing system can be identified at block 318 and can be enabled at block 316 as needed. After the particular resource is enabled, the method can then continue to block 318 and, if desired, the enabled resources of the first processing system and the second processing system can be accessed and used in association with the detected event. After accessing the enabled resource, then the method can continue to decision block 32 and determine if the access resource should be maintained. The method can continue to block 318. If access at decision block 32 is not maintained, then block 322 may continue and the enabled resources of the first processing system and the second processing system may be disabled as needed. For example, the enabled resource can be de-energized to return the information handling system to a prior or alternative operational state as needed. The method can then continue to block 324 and monitor the user and non-user initiation events and can repeat at block 300 after detecting an event. 4 is a functional block diagram of an information handling system configured to utilize reduced operational resources to reduce data using a modifiable operational state, generally depicted at 400 in accordance with one aspect of the present disclosure. The information handling system 4 includes a processor 402 coupled to a north bridge wafer 404. Clock 406 can output timing signals to processor 402 and other components of information handling system 4A. Northbridge die 404 can be further coupled to a first dual row memory module (DIMM) 408 and a second DIMM 410. Northbridge die 404 can also be coupled to a video multiplexer 412 that is operable to output video signals for display in display 414. Display 414 includes an inverter and automatic light sensor module 416. The north bridge chip 404 can be further coupled to a video switch module 418 and a video graphics array (VGA) port 420. The display port 424 can be coupled to a display port switch 422 that is operable to be coupled to the north bridge chip 404 and an E Dock module 474, the E expansion module 474 expandable system 4〇〇 resources to access batteries, media docks, I/C) blocks, or various other resources. The information handling system 400 also includes a south bridge wafer 426 coupled to the north bridge wafer 4〇4. A DAI module 428 can receive audio signals from an input source 466 from the BLT module 466. DAI module 428 can also be coupled to an E expansion mode source 474 and an audio bypass 430. The audio bypass 43A can be further coupled to a speaker and amplifier 432. The speaker and amplifier 432 can also be coupled to a microphone and head-mounted headset module 434. The south bridge wafer 426 can also be coupled to 19 201108118 to a modem demodulator 436 such as an RJ-11 or POTS enabled modem, and an audio output operable to couple the audio output signal using the south bridge wafer 426. Module 440. The south bridge wafer 426 can also be coupled to an e-module bracket 442, a Serial Advanced Technology Attachment Hard Disk Drive (SATA HDD) 444', and a first Serial Peripheral Interface (SPI) flash memory 446. The south bridge wafer 426 can also be coupled to a tandem wheel-in output (sio) integrated flash memory module 448. The SI0 integrated flash memory module 448 can be coupled to a wireless fidelity (WIFI) locator module 450, which can refer to any type of 8 〇 2 丨χ or other short-range wireless network, a second SPI fast A flash memory module 452, a host power button 454, and a resource access button 456. Keyboard 458 can be coupled to a touchpad and KSI/KS(R) module 460. The SI0 expander module 462 can also be coupled to the SI〇 integrated flash memory 448 and can be further coupled to the I/C) τρΜ module 464. 1/〇 Trusted Platform Module (TPM) module 464 A biometric metrology input source 470 can be coupled to a biometric metrology multiplexer 468 and operative to input biometric measurements of the user. The E expansion module 474 can also be coupled to the SI0 expander module 462 via the interface 472. The south bridge chip 426 can be further coupled to an I/O module 478 and a PCI flash module 480 by a peripheral computer interconnect (pCI) fast bus. The south bridge chip 426 can be further coupled to the USB using a USB bus of the information handling system. 0 access 埠 482. A 1/2 MiniCard module 484 can also be coupled to the Southbridge 426 using a PCI Express Bus. The information handling system 400 can also include a small card wireless wide area network (WWAN) module 488 coupled to the south bridge wafer 426. 20 201108118 The information handling system 400 further includes a BLT module 490 operative to be coupled to a second display 492 and configured to output a video signal to the video MUX 412 for output to the first display 414. The BLT module 490 can be further coupled to a three (3) multiplexer 494. The three (3) multiplexer 494 can multiplex the MiniCard WWAN 488, the BLT module 490, and the USB signal coupled to the USB bus of the South Bridge 426. The south bridge wafer 426 can be further lightly coupled to a Bluetooth (bt) card 496 by a USB bus. The south bridge wafer 426 can also be interfaced to the local area network (LAN) on the master (LOM) 498 by the pci fast bus of the information handling system. The LOM 498 can also be coupled to the PCI Express Module 480. The information handling system 4A also includes a power and charging system 499 that is operable to distribute power to each of the components of the information handling system. Figure 5 is a functional block diagram of an information handling system utilizing reduced resources, generally at 500, outputting data with limited resources in accordance with one aspect of the disclosure. The information handling system 500 includes the resources of the information processing system 400 illustrated in FIG. In addition, multiple portions of the information handling system can be enabled to enable the application to use the limited resources of the f-processing system to output data and receive input. For example, Figure 5 illustrates several elements, such as display 514, having "virtual" lines. As depicted in Figure 5, the dashed line indicates - the component being activated or enabled. Similarly, an element such as processor 5〇2 having a "real" line indicates a device or component that is deactivated or disabled. Therefore, the dotted line and the solid line are only provided to indicate the enabled component (available resource) or the disabled component (unusable resource) in FIG. 5, and the library is not understood as limiting information in any way. The function or capability of any component, device, etc. 21 201108118. During the operation of the §fl disposal system 5GG, resources may be initiated in one or more ways. For example, the user can select the BLT access button 556 and the SI〇 integrated flash s ** memory 548 can begin to enable resources to enable a BLT operational state. In a form of 'BLT operation state, the enable keyboard 558, the touchpad KSI/KSO module 560, the SIO integrated flash memory 548, the MUX 568, the biometrics input module 570, and the three (3) channels] ^1; 乂 594, BLT module 590, MiniCard WWAN module 588, second display 592, DAI module 528, audio bypass module 530, speaker and amplifier 532, power/charging system 599, video MUX 512, display 514 The inverter is implemented with any combination of the ALS module 516, the associated interconnect bus, or the like. Other modules can also be activated as needed or desired. In the example illustrated in Figure 5, various other devices or components that do not have an information handling system 5 for outputting the blt operational state may remain deactivated, de-energized, or placed in a reduced power operating state. . For example, processor 502 can be placed in a reduced power state, or even in an "off" state, where the processor may not be able to process data. Thus, the information handling system 500 can enable a limited amount of resources sufficient to output the BLT operational state after detecting an event to be allocated for processing, rounding, and receiving without the use of the processor 5〇2 or other various resources. Enter a reduced set of resources. In this manner, the information handling system 5 does not need to initialize all of the components of the information handling system 5 to allow the user to access the BLT operational status of the information handling system 500. For example, in one embodiment, information handling system 500 can be provided at 22 201108118 for use with a wireless module, such as a MiniCar (i WWAN module 588, ΒΤ card 550, or can be coupled to the information handling system 5 Another wireless module of the UI receives a sleep or reduced power operation state of the wireless communication signal. The received wireless signal can be detected as an incoming signal configured to be a smart mobile phone device, a BlackBerry device, or any other The type of handheld wireless device receives. Once identified, the information handling system 500 can initiate various resources in response to the detected message. For example, in one form, the information handling system 5 can enable a speaker to output a user indicating that the message has been received The selected or customized audio output or alpha beep or audio output can be customized to identify a particular developer. In one form, the information handling system 500 can include a profile that can include Including an output preference based on receiving a wireless message. For example, setting a file may include enabling automatic response to a particular type of message, sender, message Automatic servant features, etc. Automatic servants can respond to messages no more than launching a keyboard, display, or various other resources. Various other types of low-power responses to receive messages can also be enabled as needed. Information Processing System 5 Specific resources can be identified in the BT card 55〇 and enabled to enable an operating environment to output messages. For example, after accepting the black message per device, such as keyboard 558, trackpad module 56, SI◦, fast integration Flash memory module 548, video MUX 512, first display 514, inverter and ALS 516, power and charging system 599 resources and various charging circuits sufficient to supply power for allocating resources, and various interconnection circuits, bus bars Multiple combinations of, or the like, sufficient to output a received message can be enabled. In addition, the operating system and/or application can be initialized based on the type of message received. For example, the 'BUm group can identify the message and can operate the system and / or one or more application initializations that are sufficient to lose 23 201108118. For example, an application or other messaging application that is capable of outputting messages Resources that can be initialized and sufficient to output sfl can be determined and enabled. In this manner, a limited number of components or resources 'and applications and/or operating systems can be enabled, allowing the information handling system 500 to be reduced. The resource operating state benefits, thereby conserving battery or power consumption while enabling access to a particular application (eg, a BlackBerry email application). In a form, after identifying an operational state that is to be enabled, the first display 514 The operational mode can be identified. For example, the first display 514 can include a memory device that stores an identifier, the identifier including information to determine the operational capabilities of the first display 514. The backlight of the first display 514 (Figure Not shown) can be enabled, and a separate graphic display unit or processor (not shown) can be used to process and output the content. For example, the first display 514 can also display the information in a reduced power state that can include the backlight that activates the first display 514. Accordingly, initializing the limited resource operational state of the information handling system 500 can include identifying an operational state of operation of the first display 514 and determining a operational state sufficient to output an operating environment using the limited resources of the information handling system 500. According to another aspect, the inverter and ALS module 516 can be used to determine the operational state of the first display 514 in a limited resource operating state. For example, the inverter and ALS module 516 can be enabled and can detect ambient light external to the information handling system 5 and automatically adjust the intensity or display output of the first display 514 during a limited resource operating state. According to yet another aspect, Minicard WWAN 588 can be incorporated into BLT module 590 using a processor of Minicard 24 201108118 WWAN 588. For example, a MiniCard WWAN can include multiple processors (not shown). A first processor can be used to process the wireless signals and a second processor can detect the information transmitted in the wireless signals. The second processor can also be configured to provide a BLT module operable to identify one of the types of information received in the wireless signal and to determine the need to enable the resource to output a particular type of information. For example, the BLT module 590 can identify email communication messages in the wireless signal and can determine an email application and resources to output electronic communication messages without having to initialize the entire information handling system 500. Figure 6 is a functional block diagram of an information handling system using a release resource in accordance with one aspect of the present disclosure. As illustrated, the information handling system 600 includes the resources of the information handling system 400 depicted in FIG. The information processing system 600 includes a BLT access button 656, a second display piano 692, and a sounder bypass module 630, wherein the "virtual" line indicates that the modules are placed "off" or "reduced power". Fine state. For example, the information processing system 600 can be initialized to include an operational state of the processor 602 and associated components or devices, the Northbridge die 604 and associated components or devices, and the Southbridge die 626 and associated components or devices. Thus, a device or component that is not activated, as indicated by the dashed line, includes an audio bypass 630, a BLT access button 656, and a first display 692. For example, 'audio bypass 630, blt access button 656, and second display 692 can be used to access an application that can be provided with an operating system using processor 602. Therefore, the operating system can access an application sufficient to output the message, and therefore, the Blt access button, the audio bypass 630, and the second display 692 are not required to output a message received in a small operation state of minus 20110818. In an exemplary form, processor 〇2 can be used to enable, disable, or maintain the use of BLT module 690 and various other components. For example, when the user turns off power to the information handling system 600, the B LT module 690 and various other components sufficient to receive messages in a low power state can be enabled. FIG. 7 is a functional block diagram of an information handling system configured to utilize a resource allocation module 702 that is operable to allocate limited resources of the information handling system 7 in accordance with one aspect of the present disclosure. . The resource allocation module 702 can be coupled to a multiplexer 7〇4 that is operable to multiplex a single channel low voltage display signal (LVDS 1 CH) and an NCJXD-I2S signal. In one form, the EC integrated flash memory 710 can include a BIOS 750 that is operable to activate various resources of the information handling system 7. In another embodiment, the NC_LCD_I2S signal can be directly coupled to and selectively enabled by the BLT module 702. Video MUX 704 couples the multiplexed signal to a display 706 that is powered by a display power supply (LCD_Vdd). Display 706 includes an inverter and ALS module 708 that is powered by an inverter supply (INV_PWR_SRC). The inverter and ALS module 708 can be coupled to an EC integrated flash memory module 710 by a SMBUS. The EC integrated flash memory module 710 can also be coupled to a B LT power button 712 that is operable to initiate a B LT mode of operation. The EC integrated flash memory module 710 can also be coupled to a keyboard 714, which can include an email button 716, a calendar button 718, a contact button 720, and an internet access. A typewriter keyboard for button 722. The keyboard 714 can also include various other 26 201108118 type function keys as needed or desired. The EC integrated flash memory module 710 can also be coupled to a touchpad 724 that enables the use of indicators or pointing devices that can be displayed on the display 706. The EC integrated flash memory module can also be coupled to a lid switch (LID_SW) input signal 726 that is operable to indicate a lid or display of a laptop or other type of mobile information handling system When can it be opened or closed. Additional signals may also be input, output, or the like in combination with the BLT module 702 and the EC integrated flash memory module 710, including but not limited to radio disable signals (Radio_disable #), paid BLT Detection signal (PAID_BLT_DET#), BLT reset signal (BLT_RST#), BLT hold status signal (BLT_SUS_State) 'SMBUS keyboard enable signal (SMBUS_1_KB_TP), and SMBUS 2 CC signal (SMBUS_2_CC). The information processing system 700 can also include a USB MUX 726 that interfaces to a biometric metrology module 728 that is operable to input biometric measurements of the user. The USB MUX 726 can be further consumed by a host processor 730 of the information handling system 700. The BLT module 702 can further couple a WWAN access signal (USB_WWAN/H0ST HS) to a three (3) way MUX 732 that is configured to be connected using a USB enabled bus. Go to a MiniCard WWAN734 and host processor 730. The BLT module 702 can also consume a second display signal (USB-second display signal) to a second display 736. The BLT module 702 can also use an I2S bus to lightly connect an audio bypass signal (I2s_BLT) to an audio bypass module 738' and to a 272108118 DAI module 740 via a j2s bus. The DAI module 74 can be further coupled to the host processor 730 by the bus. Moreover, the interface for 702 (e.g., 7〇2a) can include additional pins or coupling elements that can be used to extend the functionality of 7〇2. It is worth noting that all of the activities described above in the general description or examples are not required, that part of a particular activity may not be required, and one or more additional Activities can be performed. Furthermore, the order in which the activities are listed is not necessarily the order in which the activities are performed. The illustrations of the embodiments described in the specification and the description are intended to provide a general understanding of the structure of the various embodiments. The specification and drawings are not intended to be exhaustive or full description of all of the elements and features of the device and system of the structure or method described in the specification. Many other embodiments may be apparent to those of ordinary skill in the art in view of this disclosure. Other embodiments may be utilized and are inferred from the disclosure, so that structural substitutions, logical substitutions, or alternatives may be made without departing from the scope of the disclosure. Therefore, the disclosure is to be considered as illustrative and not restrictive. For the sake of clarity, certain features that are described herein in the context of a plurality of separate embodiments can also be provided in combination in a single embodiment. Conversely, various features that are described in the context of a single embodiment for the sake of brevity may be provided independently or in any sub-combination. Furthermore, the inclusion of a value stated in the range includes each value in the range. Advantages, other advantages, and problem solutions have been described above in relation to the specific 28 201108118 * embodiment. However, the advantages, advantages, solutions of problems, and any feature(s) that can cause any advantage, advantage, or solution to occur or become more apparent are not to be construed as any or all of the scope of the claims. Key, need, or necessary characteristics. The above-disclosed subject matter is intended to be illustrative, and not restrictive, and the scope of the appended claims is intended to cover any and all such modifications, modifications, and other embodiments. Therefore, the scope of the invention is to be construed as limited by the claims BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of an information handling system according to one aspect of the present disclosure. FIG. 2 is a functional block diagram of an operational information handling system including resource allocation according to one aspect of the disclosure. FIG. 3 is a flow chart showing a method for accessing resources in an information processing system according to one aspect of the disclosure; FIG. 4 is a functional block diagram of an information processing system according to one aspect of the disclosure. The system includes a modifiable operational state of outputting appropriate and non-conforming resources to output non-conformity content using local resources; and FIG. 5 is a functional block diagram of an information handling system utilizing reduced resources according to one aspect of the disclosure, the system Outputting non-conformity content using local resources; Figure 6 is a functional block diagram of an information handling system utilizing allocation and release 29 201108118 resources according to one aspect of the disclosure, the system uses local resources to output appropriate content; and Figure 7 A functional block diagram of a resource allocation module according to one aspect of the disclosure, the allocation module allocates funds Local resource disposal system to output the content of non-relevance. [Main component symbol description 100, 200, 400, 500, 600, 700. . . Information Disposal System 102. . . Event detection module 104, 702. . . Resource allocation module 106... resource configuration file 108, 122, 126, 204. . . Processing system 110, 124, 128, 222, 226. . . Non-shared resources 112. . . Total drought input resources 114. . . Sharing peripheral resources 116···Shared power resources 118. . . Shared application resources 120...shared output resources 202. . Host processing system 206... resource allocation module 208, 210, 212, 214. . . Bus 218... event detection module 220. . . Resource Profile Source 224. . . Peripheral switching module 228. . . Input devices 230, 414, 492, 514, 592, 692, 706, 736. . . Display 232. . . Power resources 234. . . Host processing power supply 236. . . Sharing peripherals 238, 240, 750... basic input / output system 300 ~ 324. . . Process steps 402, 502, 602. . . Processor 404, 604. . . North Bridge Chip 406. . . Clock 408, 410... double line memory module 412, 512... video multiplexer 416, 516, 708. . . Inverter and automatic light sensor module 30 201108118 418···Video switch module 420...Video graphics array (VGA) bee 422···Display 埠Switch 424···Display 埠426'626·· . South Bridge wafers 428, 528, 740. . . DAI module 430, 530, 630. . · Audio bypass 432, 532... Speaker and amplifier 4·34... Microphone and head-mounted headphone module 436... Modulation demodulator 440... Audio output module 442...E module bracket 444...Sequence advanced technology accessories hard Disk drive (SATA HDD) 446... Serial peripheral interface (spi) Flash memory 448, 548... Serial input/output (SIO) Integrated flash memory module 450. . Wireless Fidelity (WIFI) Locator Module 452. . . 5. I flash memory module 454·. . Host power button 456. . . Resource access button 458, 558, 714. . ·Keyboard 460, 560, 724. . . Touchpad and KSI/KSO module 462. . . 510. Charger Module 464...I/O Trusted Platform Module (TPM) Module 466, 490, 590, 690. . . BLT model set 468... biometric measurement multiplexer 470, 570... biometric measurement input source 472. . . Interface 474. . . E expansion module 478. . . 1. O module 480·. · PCI Express Module 482. . . USB 2. 0 Access i Enjoy 484...1/2 Compact Card Module 488'588 ' 734·. · Small card wireless WAN module 494, 594, 732. . . Three (3) multiplexers 496, 550. . . Bluetooth card 498. . . Master 499, 599... Power and Charging System 31 201108118 556, 656. . . BLT access button 568, 704. ··Multiplexer 710. . . EC integrated flash memory 712. . . BLT power button 716. . . Email button 718...calendar button 720. . . Contact button 722. . . Internet access button 726...LID_SW input signal 728. . . Biometric measurement module 730. ··Host processor 738. . . Audio bypass module 32