[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

TWI402764B - Discrete graphics system, computer system for discrete graphics system, dgs unit, dgs housing, and method thereof - Google Patents

Discrete graphics system, computer system for discrete graphics system, dgs unit, dgs housing, and method thereof Download PDF

Info

Publication number
TWI402764B
TWI402764B TW94121285A TW94121285A TWI402764B TW I402764 B TWI402764 B TW I402764B TW 94121285 A TW94121285 A TW 94121285A TW 94121285 A TW94121285 A TW 94121285A TW I402764 B TWI402764 B TW I402764B
Authority
TW
Taiwan
Prior art keywords
gpu
computer system
graphics
coupled
connector
Prior art date
Application number
TW94121285A
Other languages
Chinese (zh)
Other versions
TW200606751A (en
Inventor
Michael B Diamond
Cesar Carrera
Original Assignee
Nvidia Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from US10/877,723 external-priority patent/US8941668B2/en
Priority claimed from US10/877,724 external-priority patent/US8446417B2/en
Priority claimed from US10/877,642 external-priority patent/US8411093B2/en
Application filed by Nvidia Corp filed Critical Nvidia Corp
Publication of TW200606751A publication Critical patent/TW200606751A/en
Application granted granted Critical
Publication of TWI402764B publication Critical patent/TWI402764B/en

Links

Classifications

    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F13/00Interconnection of, or transfer of information or other signals between, memories, input/output devices or central processing units
    • G06F13/38Information transfer, e.g. on bus
    • G06F13/40Bus structure
    • G06F13/4004Coupling between buses
    • G06F13/4027Coupling between buses using bus bridges
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06TIMAGE DATA PROCESSING OR GENERATION, IN GENERAL
    • G06T15/003D [Three Dimensional] image rendering
    • G06T15/005General purpose rendering architectures

Landscapes

  • Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Computer Hardware Design (AREA)
  • Computer Graphics (AREA)
  • Image Generation (AREA)
  • Controls And Circuits For Display Device (AREA)
  • Power Sources (AREA)

Description

分離式圖形系統、用於分離式圖形系統的電腦系統、分離式圖形系統單元、分離式圖形系統(DGS)外罩、及其方法Separate graphics system, computer system for separate graphics system, separate graphics system unit, separate graphics system (DGS) cover, and method thereof

本發明一般係與電腦執行圖形相關。更特言之,本發明係關於各圖形應用程式的一高度可比例縮放圖形處理器。本發明係揭露一種用於獨立於電腦系統主機板尺寸規格(form factor)之分離式圖形方法與系統。The invention is generally related to computer graphics execution. More particularly, the present invention relates to a highly scalable graphics processor for each graphics application. The present invention discloses a separate graphics method and system for a form factor independent of a computer system motherboard.

三維圖形影像的演算(rendering)在各種電子遊戲及其它應用程式中十分熱門。演算為通用術語,其描述自一3D物件之一資料庫表示轉換為該物件之一擬真二維投影於一瀏覽平面上的整體多步驟處理。Rendering of 3D graphics is very popular among various video games and other applications. The calculus is a generic term that describes an overall multi-step process that converts a database representation from one of the 3D objects into an imaginary two-dimensional projection of the object on a viewing plane.

該演算處理涉及數等步驟,例如設置一種含有蔭影/材質化處理隨後所需之資訊的多邊形模型、應用線性轉換至該多邊形網格(polygon mesh)模型、修剪該多邊形符合一檢視區、掃描轉換/點陣化(rasterizing)該多邊形為一像素座標集合,以及使用插點式或漸進式蔭影技術調暗/調亮該個別像素。The calculation process involves a number of steps, such as setting a polygon model containing the information required for the shadow/texturing process, applying a linear transformation to the polygon mesh model, trimming the polygon to conform to a viewport, scanning Converting/rasterizing the polygon to a set of pixel coordinates and dimming/brightening the individual pixels using interpolated or progressive shading techniques.

圖形處理器(Graphics Processing Units,GPUs)為圖形系統中廣為使用的特製積體電路裝置以加速3D演算應用程式的效能。GPUs普遍結合一中央處理器(CPUs)加以使用以建立3D影像給一電腦系統上執行之一或多個應用程式。現今的GPUs典型地使用一圖形管線以處理資料。Graphics Processing Units (GPUs) are specially designed integrated circuit devices widely used in graphics systems to accelerate the performance of 3D calculus applications. GPUs are commonly used in conjunction with a central processing unit (CPUs) to create 3D images for execution on one or more applications on a computer system. Today's GPUs typically use a graphics pipeline to process data.

現今GPU子系統(例如附加圖形卡等等)的電源正逐漸增加地包含一桌上型電腦系統之整體電源值更多的分配量而可以在複雜度以及精密度上與一電聯系統之CPU相比擬。一現今GPU可包含具有超過2億個電晶體且以數億赫茲速度運算的一積體電路裝置。此一現今GPU可消耗數百瓦的電力而需要仔細設計的熱保護元件(例如散熱風扇、接觸足夠的氣流等等)。The power supply of today's GPU subsystems (such as additional graphics cards, etc.) is gradually increasing to include a larger amount of overall power supply value of a desktop computer system, and can be combined with a CPU of an electrical system in complexity and precision. Compare it. A modern GPU can include an integrated circuit device with more than 200 million transistors and operating at hundreds of millions of hertz. Today's GPUs can consume hundreds of watts of power and require carefully designed thermal protection components (such as cooling fans, contact with adequate airflow, etc.).

一般而言,該GPU子系統(例如GPU圖形卡)的配置及效能會受限於數個整體系統設計因素。一般設計GPU子系統與一ATX相容電腦系統主機板相連接。該ATX主機板尺寸規格係指該領導業界製造者所支援而廣為使用的工業標準主機板主機板尺寸規格。該些製造者包含例如CPU製造者、晶片組製造者、主機板製造者等等。In general, the configuration and performance of the GPU subsystem (eg, GPU graphics card) can be limited by several overall system design factors. The GPU subsystem is typically designed to interface with an ATX-compatible computer system motherboard. The ATX motherboard size specification refers to the industry standard motherboard board size specifications that are widely used by leading industry manufacturers. Such manufacturers include, for example, CPU manufacturers, chipset manufacturers, motherboard manufacturers, and the like.

舉例來說,該ATX主機板尺寸規格提供一限量空間給一插卡式(card-based)GPU。一典型的插卡式GPU透過一AGP插槽連接至該主機板。該AGP插槽具有一有限空間提供給該插卡式GPU的元件。該有限空間直接影響該插卡式GPU之熱保護元件的效率。此外,隨著插卡式GPU的效能逐漸增加,該AGP連接的可用電力(即指定電壓及電流)已亦趨不足。For example, the ATX motherboard size specification provides a limited amount of space for a card-based GPU. A typical plug-in GPU is connected to the motherboard through an AGP slot. The AGP slot has a limited amount of space available to the plug-in GPU. This limited space directly affects the efficiency of the thermal protection components of the plug-in GPU. In addition, as the performance of plug-in GPUs increases, the available power (ie, specified voltage and current) of the AGP connection has become insufficient.

該BTX主機板尺寸規格係指一更新的工業標準主機板主機板尺寸規格。該BTX主機板尺寸規格被認為是一「桌上型」PC機架(chassis)的次世代ATX延續規格,且與較早之ATX主機板尺寸規格同樣受到該領導業界製造者所支持。不幸地,該BTX主機板尺寸規格在高效能GPU子系統方面甚至遭遇更多的問題。The BTX motherboard size specification refers to an updated industry standard motherboard motherboard size specification. The BTX motherboard size specification is considered to be the next-generation ATX continuation specification for a "desktop" PC chassis, and is supported by the industry's leading manufacturers as well as the older ATX motherboard size specifications. Unfortunately, the BTX motherboard size specification has even encountered even more problems with high performance GPU subsystems.

該BTX主機板尺寸規格的問題在於該BTX設計規範在該GPU子系統樣式及效能上設有許多限制。舉例來說,BTX設計規範為了冷卻氣流而將該桌上型電腦系統的CPU置於前端入口處,而將該GPU子系統(例如圖形卡)置於CPU的向下氣流觸,並在GPU子系統的物理尺寸(即x-y-z尺寸)、可用氣流、可用熱散逸(thermal dissipation)以及電力傳遞上增加了限制。A problem with the size of the BTX motherboard is that the BTX design specification has many limitations on the style and performance of the GPU subsystem. For example, the BTX design specification places the CPU of the desktop system at the front-end entrance for cooling airflow, and places the GPU subsystem (such as a graphics card) on the downward airflow of the CPU, and on the GPU. The physical size of the system (i.e., x-y-z size), available airflow, available thermal dissipation, and power transfer are limited.

類似的限制也存在於筆記型電腦系統主機板尺寸規格。舉例來說,筆記型電腦之GPU子系統的未來演進受限於該筆記型電腦機架(例如主機板平台、機殼、氣流等等)是為了CPUs以及其相關需求而加以最佳化。此最佳化限制任何圖形子系統實施之可利用的熱散逸安排、電力傳遞以及物理尺寸(即x-y-z尺寸)。Similar limitations exist in the notebook computer motherboard size specifications. For example, the future evolution of the GPU subsystem of a notebook computer is limited by the fact that the notebook computer rack (eg, motherboard platform, chassis, airflow, etc.) is optimized for CPUs and their associated needs. This optimization limits the available heat dissipation arrangements, power transfer, and physical dimensions (ie, x-y-z dimensions) that any graphics subsystem implements.

某些新興工業標準也將限制GPU子系統的未來效能演進。PCI Express為一種此標準。某些版本的PCI Express標準指定一連接裝置的一最大可利用電力(例如PCI SIG規格規定150瓦給PCI Express圖形)。隨著GPU子系統效能的持續增進,高階GPU實施的需求可能大幅超越該指定的可用最大電力。除了不足的電力之外,某些版本的PCI Express標準對於該GPU子系統與其它電腦系統平台(如系統記憶體、CPU等等)間指定不足的頻寬。該不足頻寬限縮該GPU子系統與該電腦系統平台資源之間的通道,因而限制該GPU子系統效能的向上比例縮放能力。Certain emerging industry standards will also limit the future performance evolution of the GPU subsystem. PCI Express is one such standard. Some versions of the PCI Express standard specify a maximum available power for a connected device (eg, the PCI SIG specification specifies 150 watts for PCI Express graphics). As GPU subsystem performance continues to increase, the demands of higher-order GPU implementations can significantly exceed the specified maximum available power. In addition to insufficient power, some versions of the PCI Express standard specify insufficient bandwidth between the GPU subsystem and other computer system platforms (such as system memory, CPU, etc.). The insufficient bandwidth limits the channel between the GPU subsystem and the resources of the computer system platform, thereby limiting the upward scaling capability of the GPU subsystem performance.

本發明的實施例提供一種用於獨立於電腦系統主機板尺寸規格之分離式圖形方法及系統。本發明之實施例應消除限制一GPU子系統之向上比例縮放能力的資料傳輸頻寬限制以及主機板尺寸規格限制。Embodiments of the present invention provide a separate graphics method and system for a motherboard module size independent of a computer system. Embodiments of the present invention should eliminate data transmission bandwidth limitations and motherboard size limitations that limit the upward scaling capability of a GPU subsystem.

在一實施例中,將本發明實施成一獨立(discrete)圖形系統(DGS)以供執行一電腦系統的3D圖形指令。該分離式圖形系統包括一或多個GPUs以供執行3D圖形指令以及一DGS系統機架用以配置該GPU(s)。一序列匯流排連接器內建於該DGS系統機架中並用於連接該GPU(s)。使該序列匯流排連接器可具移除式地連接該DGS以及該GPU(s)至該電腦系統。該DGS之GPU(s)透過該序列匯流排連接器存取該電腦系統以執行該電腦系統的3D圖形指令。在一實施例中,已演算之3D資料隨後被傳回該電腦系統以顯示於連接至該電腦系統之一顯示器上。在另一實施例中,已演算之3D資料被傳至直接連接至該DGS的一顯示器以供顯示給使用者。在一實施例中,該DGS使用多個插卡式GPUs。該GPUs可被實施為單GPU附加圖形卡(例如每塊卡一個GPU)、多GPU附加圖形卡(例如每塊卡二或多個GPU)。在一實施例中,使用多塊附加圖形卡,其中每塊卡具有二或多個GPU。In one embodiment, the present invention is implemented as a discrete graphics system (DGS) for executing 3D graphics instructions of a computer system. The split graphics system includes one or more GPUs for executing 3D graphics instructions and a DGS system chassis for configuring the GPU(s). A sequence of busbar connectors is built into the DGS system rack and is used to connect the GPU(s). Having the sequence busbar connector detachably connect the DGS and the GPU(s) to the computer system. The GPU(s) of the DGS accesses the computer system through the serial bus connector to execute 3D graphics commands of the computer system. In one embodiment, the calculated 3D data is then passed back to the computer system for display on a display connected to one of the computer systems. In another embodiment, the calculated 3D data is passed to a display that is directly connected to the DGS for display to the user. In an embodiment, the DGS uses a plurality of plug-in GPUs. The GPUs can be implemented as a single GPU add-on graphics card (eg, one GPU per card), a multi-GPU add-on graphics card (eg, two or more GPUs per card). In an embodiment, multiple pieces of additional graphics cards are used, with each card having two or more GPUs.

在一實施例中,實施本發明為一DGS(分離式圖形系統)單元。該DGS單元包括用於配置一GPU的機架以及連接至該系統機架並用於容納該GPU的一安裝單元。一序列匯流排連接器連接至該機架並連接至該GPU安裝單元,其中使該序列匯流排連接器可具移除式地連接該GPU至一電腦系統以使該CPU透過該序列匯流排連接器存取該電腦系統並執行該電腦系統的3-D圖形指令。一電源供應器連接至該系統機架以提供獨立於該電腦系統之電源至該GPU。在一實施例中,該DGS單元包括一熱管理系統以冷卻該GPU以及該電源供應器。在另一實施例中,該DGS單元包括一音量管理系統以控制該熱管理系統以及該電源供應器之運作以限制該DGS單元產生的噪音。在一實施例中,該DGS使用多個插卡式GPUs。該GPUs可被實施為單GPU附加圖形卡(例如每塊卡一個GPU)、多GPU附加圖形卡(例如每塊卡二或多個GPU)。在一實施例中,使用多塊附加圖形卡,其中每塊卡具有二或多個GPU。In one embodiment, the invention is implemented as a DGS (Separate Graphics System) unit. The DGS unit includes a rack for configuring a GPU and a mounting unit coupled to the system rack and for housing the GPU. a sequence of busbar connectors connected to the rack and connected to the GPU mounting unit, wherein the serial busbar connector is configured to removably connect the GPU to a computer system to cause the CPU to connect through the serial busbar The device accesses the computer system and executes 3-D graphics commands of the computer system. A power supply is coupled to the system rack to provide power independent of the computer system to the GPU. In an embodiment, the DGS unit includes a thermal management system to cool the GPU and the power supply. In another embodiment, the DGS unit includes a volume management system to control operation of the thermal management system and the power supply to limit noise generated by the DGS unit. In an embodiment, the DGS uses a plurality of plug-in GPUs. The GPUs can be implemented as a single GPU add-on graphics card (eg, one GPU per card), a multi-GPU add-on graphics card (eg, two or more GPUs per card). In an embodiment, multiple pieces of additional graphics cards are used, with each card having two or more GPUs.

在一實施例中,本發明被實施為一可比例縮放分離式圖形系統(DGS)。該DGS包括一序列匯流排橋接器(例如PCI Express)用以連接多個GPUs至一序列匯流排。一序列匯流排連接器被連接至該序列匯流排橋接器。一系統機架被連接至該序列匯流排橋接器以及該序列匯流排連接器並用於容納該GPUs。使該序列匯流排連接器可具移除式地連接至一電腦系統。該GPUs透過該序列匯流排橋接器以及該序列匯流排連接器存取該電腦系統以共同執行該電腦系統的3-D圖形指令。在一實施例中,藉由連接至少一新的GPU以與一既有GPU共同運作而使該序列匯流排橋接器得以向上提升該電腦系統之3-D演算效能。該新的GPU及該既有GPU共同執行該電腦系統之圖形指令。在一實施例中,該多GPU圖形系統使用多個插卡式GPUs。該GPUs可被實施為單GPU附加圖形卡(例如每塊卡一個GPU)、多GPU附加圖形卡(例如每塊卡二或多個GPU)。在一實施例中,使用多塊附加圖形卡,其中每塊卡具有二或多個GPU。In one embodiment, the invention is implemented as a scalable split graphics system (DGS). The DGS includes a sequence of bus bridges (eg, PCI Express) for connecting multiple GPUs to a sequence of busses. A sequence of bus bar connectors is connected to the sequence bus bar bridge. A system rack is coupled to the sequence bus bridge and the serial bus connector and is configured to house the GPUs. The serial bus connector can be removably coupled to a computer system. The GPUs access the computer system through the serial bus bridge and the serial bus connector to collectively execute 3-D graphics commands of the computer system. In one embodiment, the serial bus bridge is enabled to up-scaling the 3-D computational performance of the computer system by connecting at least one new GPU to operate in conjunction with an existing GPU. The new GPU and the existing GPU jointly execute graphics instructions of the computer system. In an embodiment, the multi-GPU graphics system uses a plurality of plug-in GPUs. The GPUs can be implemented as a single GPU add-on graphics card (eg, one GPU per card), a multi-GPU add-on graphics card (eg, two or more GPUs per card). In an embodiment, multiple pieces of additional graphics cards are used, with each card having two or more GPUs.

現在將詳細地建立參照至本發明的較佳實施例,其範例於附加圖示中加以說明。即使本發明將結合該較佳實施例加以說明,仍將了解並無意將本發明限於這些實施例。相反地,有意使本發明涵蓋替代、修改及均等物,其可被包含於該附加申請專利範圍所定義之本發明的精神及範圍中。再者,在以下本發明之實施例的詳細描述中,提出多種特定細節以提供本發明一詳細的了解。然而,該些習知技藝人士將了解可實施本發明而無需這些特定細節。在其他情況中,已知方法、程序。元件及電路由於不會不必要地防礙本發明之實施例的態樣,因而未加以詳細說明。Reference will now be made in detail to the preferred embodiments of the invention, and Even though the invention will be described in connection with the preferred embodiments, it is understood that the invention is not intended to limit the invention. Rather, the invention is intended to cover alternatives, modifications, and equivalents, which are included in the spirit and scope of the invention as defined by the appended claims. In the following detailed description of the embodiments of the invention, the invention However, those skilled in the art will appreciate that the invention may be practiced without these specific details. In other cases, methods and procedures are known. The components and circuits are not described in detail since they do not unnecessarily obstruct the embodiments of the present invention.

標記及命名: 以下詳細描述之某些部分係以程序、步驟、邏輯方塊、處理以及一電腦記憶體中的資料位元上的其它操作符號表示之形式加以呈現。這些描述及表示為該些習知資料處理技藝人士所使用之工具以更有效地向其他習知技藝人勢表達其實質作品。此處一程序、電腦執行步驟、邏輯方塊、處理等等一般被認為是導致一所需結果的一自我一致步驟順序或指令。該步驟需要物理數量的物理操縱。雖非必然,但一般而言這些數量採用可被儲存、傳送、結合、比較以及可於一電腦中操縱之其它方式的電或磁信號的形式。主要為了一般使用之理由,已證明常方便地將這些信號歸類為位元、數值、項目、符號、特徵、形式、數目等等。 MARKS AND NAMES: Certain portions of the detailed description are presented in terms of procedures, steps, logic blocks, processing, and other operational symbol representations on a data bit in a computer memory. These descriptions and representations are the tools used by those skilled in the art to more effectively express their substantial works to other skilled artisans. A program, computer execution steps, logic blocks, processing, etc., are generally considered to be a self-consistent sequence of steps or instructions leading to a desired result. This step requires a physical manipulation of the physical quantity. Although not necessarily, these quantities are generally in the form of electrical or magnetic signals that can be stored, transferred, combined, compared, and otherwise manipulated in a computer. It has proven convenient to classify these signals as bits, values, items, symbols, features, forms, numbers, etc., primarily for reasons of general usage.

然而應了解所有這些及類似術語與該適當物理數量有關且僅為用於這些數量的方便標記。除非與以下明顯的說明有特別不同之陳述,應了解在本發明之各部份說明中,使用諸如「處理(processing)」或「存取(accessing)」或「執行(executing)」或「儲存(storing)」或「演算(rendering)」等術語係指一電腦系統(例如第1圖之電腦系統100)或類似電子運算裝置的動作及處理,其操縱並將以該電腦系統之登錄及記憶體中的物理(電子)數量呈現的資料轉換為類似地以該電腦系統記憶體或登錄或其他此種資訊儲存、傳送或顯示裝置中的物理數量呈現的其他資料。However, it should be understood that all of these and similar terms are related to the appropriate physical quantities and are merely convenient labels for these quantities. Unless otherwise stated in the following description, it should be understood that in various parts of the invention, such as "processing" or "accessing" or "executing" or "storing" Terms such as "storing" or "rendering" refer to the operation and processing of a computer system (such as computer system 100 of Figure 1) or similar electronic computing device, which is manipulated and will be registered and memorized by the computer system. The data presented by the physical (electronic) quantity in the volume is converted to other data similarly presented in the physical quantity of the computer system memory or login or other such information storage, transmission or display device.

電腦系統平台: 現在參照第1圖,該圖說明依據本發明之一實施例的一電腦系統100。依據本發明之一實施例的電腦系統100提供該執行平台以供實施本發明的部分一軟體為基礎之功能。如第1圖所示,該電腦系統100包括一CPU 101以及一系統記憶體102。一分離式圖形系統110(例如此後之DGS)透過一匯流排115以及一橋接器120連接至該CPU 101以及該系統記憶體102。在該系統100實施例中,該系統記憶體102儲存用於該CPU 101以及該DGS 110的指令以及資料。該DGS 110透過該橋接器120存取該系統記憶體102。該橋接器120透過該匯流排115與該DGS 110聯繫並藉由橋接該匯流排115以及該電腦系統100的個別資料格式而運作。應注意該電腦系統100包括任何類型之電腦裝置,包括但不限於一桌上型電腦、伺服器、工作站、筆記型電腦、以電腦為基礎之模擬器、掌上型電腦以及其他可移動式/手持式裝置如一個人數位助理、平板型電腦、遊戲操縱器、行動電話、智慧型電話、手持遊戲系統等等。 Computer System Platform: Referring now to Figure 1, a computer system 100 in accordance with an embodiment of the present invention is illustrated. Computer system 100 in accordance with an embodiment of the present invention provides the execution platform for implementing a portion of the software-based functionality of the present invention. As shown in FIG. 1, the computer system 100 includes a CPU 101 and a system memory 102. A separate graphics system 110 (e.g., DGS thereafter) is coupled to the CPU 101 and the system memory 102 via a bus 115 and a bridge 120. In the system 100 embodiment, the system memory 102 stores instructions and data for the CPU 101 and the DGS 110. The DGS 110 accesses the system memory 102 through the bridge 120. The bridge 120 communicates with the DGS 110 through the bus bar 115 and operates by bridging the bus bar 115 and the individual data formats of the computer system 100. It should be noted that the computer system 100 includes any type of computer device including, but not limited to, a desktop computer, a server, a workstation, a notebook computer, a computer-based simulator, a palmtop computer, and other portable/handheld devices. Devices such as a number of assistants, tablet computers, game controllers, mobile phones, smart phones, handheld gaming systems, and the like.

如前所述,本發明之部分處理及步驟在一實施例中被實現為位於一電腦系統(例如系統100)之電腦可讀取記憶體(例如系統記憶體102)中且可被系統100之CPU 101及DGS 110執行的一串指令(例如軟體程式)。當被執行時,該指令使該電腦系統100實施本發明如下所述之功能。As previously mentioned, some of the processes and steps of the present invention are implemented in one embodiment as a computer readable memory (e.g., system memory 102) in a computer system (e.g., system 100) and are A series of instructions (such as a software program) executed by the CPU 101 and the DGS 110. When executed, the instructions cause the computer system 100 to perform the functions of the present invention as described below.

第1圖之電腦系統100實施例說明結合一電腦系統之基本元件以利用一DGS 110執行3D圖形指令。該DGS 110包括至少一GPU以執行3D圖形指令。該GPU(s)被包圍於用於容納該GPU(s)並提供必要資源以供最佳操作的一DGS系統機架中。該DGS 110包括一序列匯流排連接器以連接該匯流排115並藉此連接該DGS 110至該匯流排元件120。在一實施例中,該匯流排115為一PCI Express序列匯流排。該DGS 110之GPU(s)透過該序列匯流排115存取該電腦系統以執行該電腦系統之3D圖形指令。在此方式中,該DGS 110提供一種分開且獨立於該電腦系統100之資源/限制的分離式圖形系統。該DGS 110之內部元件將於下文中更詳細地加以描述(例如第7圖等等)。The computer system 100 embodiment of Figure 1 illustrates the incorporation of a basic component of a computer system to perform 3D graphics instructions using a DGS 110. The DGS 110 includes at least one GPU to execute 3D graphics instructions. The GPU(s) are enclosed in a DGS system rack for accommodating the GPU(s) and providing the necessary resources for optimal operation. The DGS 110 includes a sequence of bus bar connectors to connect the bus bar 115 and thereby connect the DGS 110 to the bus bar component 120. In one embodiment, the bus bar 115 is a PCI Express sequence bus. The GPU(s) of the DGS 110 accesses the computer system through the sequence bus 115 to execute 3D graphics commands of the computer system. In this manner, the DGS 110 provides a separate graphics system that is separate and independent of the resources/limitations of the computer system 100. The internal components of the DGS 110 will be described in more detail below (e.g., Figure 7, etc.).

第2圖說明依據本發明之一實施例的DGS 110,其中該DGS 110被直接連接至一顯示器201(例如一液晶顯示器、一映像管顯示器等等)。在此實施例中,該DGS 110包括驅動該顯示器201所必須的元件(例如訊框緩衝器、數位類比轉換器(DACs)等等)。該顯示器201透過例如一顯示器配接卡線路202(例如類比視訊線、數位視訊線等等)連接至該DGS 110。2 illustrates a DGS 110 in accordance with an embodiment of the present invention, wherein the DGS 110 is directly coupled to a display 201 (eg, a liquid crystal display, a video tube display, etc.). In this embodiment, the DGS 110 includes the components necessary to drive the display 201 (e.g., frame buffers, digital analog converters (DACs), etc.). The display 201 is coupled to the DGS 110 via, for example, a display adapter card line 202 (e.g., analog video line, digital video line, etc.).

第2圖之DGS 110實施例所提供之一優點在於原先被認為在該匯流排115上被傳送至該電腦系統100的演算視訊資料(例如演算3D視訊之訊框)可被直接傳送至該顯示器201。此將減少該匯流排115上設置的頻寬需求。One of the advantages provided by the DGS 110 embodiment of FIG. 2 is that the calculated video data (eg, the frame of the 3D video) that was originally transmitted to the computer system 100 on the bus bar 115 can be directly transmitted to the display. 201. This will reduce the bandwidth requirement set on the bus bar 115.

第3圖說明依據本發明之一實施例的一DGS 310,其中配置該DGS 310利用該顯示器201直接連接至一電腦系統300(例如與第2圖實施例中被連接至該DGS不同)。配置該DGS 310實施例以使用該匯流排115之可用頻寬將演算視訊資料傳回該電腦系統300。該DGS 310與該電腦系統300之元件(例如CPU 301、系統記憶體302、橋接器320以及該電腦系統GPU 330)共同運作以呈現該演算視訊資料於該顯示器201上。因而在此情形中,該電腦系統GPU 330的資源(例如訊框緩衝器、DACs等等)被用於驅動該顯示器201。Figure 3 illustrates a DGS 310 in accordance with an embodiment of the present invention in which the DGS 310 is configured to be directly coupled to a computer system 300 using the display 201 (e.g., different from being connected to the DGS in the embodiment of Figure 2). The DGS 310 embodiment is configured to transmit the calculated video data back to the computer system 300 using the available bandwidth of the bus 115. The DGS 310 operates in conjunction with components of the computer system 300 (e.g., CPU 301, system memory 302, bridge 320, and computer system GPU 330) to present the calculated video data to the display 201. Thus in this case, resources of the computer system GPU 330 (e.g., frame buffers, DACs, etc.) are used to drive the display 201.

第3圖之DGS實施例所提供之一優點在於一典型桌上型或筆記型電腦系統之可用資源可被用於驅動該顯示器201。此允許該DGS 310可更輕易地被連接以及被一典型電腦系統所使用。舉例來說,當需要一強力3D演算系統的效能優勢時,該DGS 310可即時插入至該電腦系統300且立即開始驅動該顯示器201,而與強迫一使用者自該電腦系統300拔除該顯示器201並重新連接該顯示器至該DGS 310不同。One advantage provided by the DGS embodiment of Figure 3 is that the available resources of a typical desktop or notebook computer system can be used to drive the display 201. This allows the DGS 310 to be more easily connected and used by a typical computer system. For example, when a performance advantage of a powerful 3D calculus system is required, the DGS 310 can be immediately plugged into the computer system 300 and immediately begin to drive the display 201, while forcing a user to unplug the display 201 from the computer system 300. And reconnecting the display to the DGS 310 is different.

第4圖說明依據本發明之一實施例之一電腦系統400的部分元件以及一匯流排415。在本實施例中,該匯流排415為一PCI Express匯流排。該PCI Express匯流排415連接一DGS 410至電腦系統400之一PCI Express橋接器420。該PCI Express橋接器420提供該CPU 401、系統記憶體402以及該個人裝置(例如磁碟機421、DVD光碟機422等等)。Figure 4 illustrates some of the components of computer system 400 and a busbar 415 in accordance with one embodiment of the present invention. In this embodiment, the bus bar 415 is a PCI Express bus bar. The PCI Express bus 415 connects a DGS 410 to one of the PCI Express bridges 420 of the computer system 400. The PCI Express Bridge 420 provides the CPU 401, system memory 402, and the personal device (e.g., disk drive 421, DVD player 422, etc.).

使用一PCI Express匯流排415提供許多優點。舉例來說,PCI Express包括一序列匯流排標準,其相較於舊有平行匯流排標準(例如AGP等等)可序列化資料以供更有效的傳輸。再者,該PCI Express標準定義增進頻寬傳輸模式,藉此許多「通道」(lanes)可被結合以比例縮放資料傳輸頻寬。舉例來說,連接一圖形子系統至系統記憶體的典型PCI Express匯流排被指定為一「16通道」匯流排,藉此連結16個序列PCI Express資料通道以提供一單通道PCI Express匯流排之16倍的資料傳輸頻寬。若需要更多頻寬,可使用一額外數量的PCI Express通道以實施該匯流排415。The use of a PCI Express bus 415 provides a number of advantages. For example, PCI Express includes a sequence of bus standards that serialize data for more efficient transmission than older parallel bus standards (eg, AGP, etc.). Furthermore, the PCI Express standard defines an enhanced bandwidth transmission mode whereby a number of "lanes" can be combined to scale the data transmission bandwidth. For example, a typical PCI Express bus that connects a graphics subsystem to system memory is designated as a "16-channel" bus, thereby connecting 16 serial PCI Express data channels to provide a single-channel PCI Express bus. 16 times the data transmission bandwidth. If more bandwidth is needed, an additional number of PCI Express lanes can be used to implement the bus 415.

該PCI Express匯流排415可較該早期平行匯流排長上許多。舉例來說,習知技術AGP匯流排的長度無法大於數毫米而不會有資料扭曲及資料損毀的風險。此有效地強迫該GPU被直接置於或插入電腦系統的主機板上。相反地,一PCI Express匯流排線的長度可遠大於一公尺,因而允許該DGS 410完全地自該電腦系統400之機架中移除(例如置於一段距離之外)。The PCI Express bus 415 can be much longer than the earlier parallel bus. For example, the length of the prior art AGP busbar cannot be greater than a few millimeters without the risk of data distortion and data corruption. This effectively forces the GPU to be placed or plugged directly into the motherboard of the computer system. Conversely, a PCI Express bus bar can be much longer than one meter in length, thus allowing the DGS 410 to be completely removed from the rack of the computer system 400 (eg, placed a distance away).

第5圖說明依據本發明之一實施例之一電腦系統的部分元件。在該電腦系統500實施例中,一PCI Express北橋424以及一PCI Express南橋425被用於取代第4圖之電腦系統400的一單一橋接器420。電腦系統500說明一典型的北橋/南橋配置,其中該北橋424提供記憶體主控元件(memory master)/記憶體控制器功能給該系統記憶體402,而該南橋425提供資料傳輸頻寬給週邊裝置(例如磁碟機421、DVD光碟機422等等)。Figure 5 illustrates some of the components of a computer system in accordance with one embodiment of the present invention. In the computer system 500 embodiment, a PCI Express North Bridge 424 and a PCI Express South Bridge 425 are used in place of a single bridge 420 of the computer system 400 of FIG. Computer system 500 illustrates a typical Northbridge/Southbridge configuration in which the Northbridge 424 provides a memory master/memory controller function to the system memory 402, and the Southbridge 425 provides data transmission bandwidth to the perimeter. Devices (e.g., disk drive 421, DVD player 422, etc.).

第6圖說明一示圖,其描繪依據本發明之一實施例的一DGS透過PCI Express連接器601及602連接至一電腦系統的方式。該PCI Express標準提供一即時插入能力因而裝置可於運作中連接以及自一PCI Express匯流排拔除。此允許該DGS 410幾乎能隨意地被插入至該電腦系統400中。舉例來說,當需要高效能3D演算時(例如當需要高精確度即時3D演算應用程式時),可輕易地插入該DGS 410以提供所需效能。此外,如前所述,一PCI Express匯流排線路415之長度可超過一公尺,因而允許該DGS 410完全的自該電腦系統500之機架中移除。Figure 6 illustrates a diagram depicting the manner in which a DGS is coupled to a computer system via PCI Express connectors 601 and 602 in accordance with an embodiment of the present invention. The PCI Express standard provides an instant plug-in capability so that devices can be connected in operation and removed from a PCI Express bus. This allows the DGS 410 to be inserted into the computer system 400 almost at will. For example, when high performance 3D calculus is required (eg, when a high precision instant 3D calculus application is required), the DGS 410 can be easily inserted to provide the desired performance. Moreover, as previously discussed, a PCI Express bus line 415 can be more than one meter in length, thereby allowing the DGS 410 to be completely removed from the rack of the computer system 500.

第7圖說明依據本發明之一實施例之一DGS 710的內部元件。如第7圖所述,該DGS 710包含獨立於該電腦系統機架的一機架。此機架包括一DGS橋接器720以連接至該PCI Express匯流排415、一或多個GPUs 730、一電源供應器721、一熱管理系統722以及一音量管理系統723。Figure 7 illustrates the internal components of a DGS 710 in accordance with one embodiment of the present invention. As described in Figure 7, the DGS 710 includes a rack that is separate from the rack of the computer system. The rack includes a DGS bridge 720 to connect to the PCI Express bus 415, one or more GPUs 730, a power supply 721, a thermal management system 722, and a volume management system 723.

如第7圖所示,該DGS 710實施例包括一或多個GPUs以供自一組合電腦系統(例如電腦系統500)執行圖形指令。如前所述,該圖形指令係透過PCI Express匯流排415自該電腦系統接收。As shown in FIG. 7, the DGS 710 embodiment includes one or more GPUs for executing graphics instructions from a combined computer system, such as computer system 500. As previously mentioned, the graphics command is received from the computer system via the PCI Express bus 415.

該獨立電源供應器721係用於獨立於一電腦系統之電源供應器提供電源給DGS元件。因而未來GPU效能增加的電源供應器需求可無涉於任何工業標準電腦系統配置(例如ATX主機板尺寸規格標準、BTX主機板尺寸規格標準等等)的任何外部限制。The independent power supply 721 is for providing power to the DGS component independently of a power supply of a computer system. Thus, future power supply requirements for increased GPU performance may be independent of any external limitations of any industry standard computer system configuration (eg, ATX motherboard size specifications, BTX motherboard size specifications, etc.).

該熱管理系統722係用於提供獨立於一電腦系統之冷卻配置的一冷卻來源。因此,未來GPU效能增加的冷卻需求可無涉於任何外部限制(如BTX冷卻標準等等)。舉例來說,該熱管理系統722可包含該散熱風扇、熱導管機構、液體冷卻機構等等。The thermal management system 722 is for providing a source of cooling independent of the cooling configuration of a computer system. Therefore, the increased cooling requirements for future GPU performance may not be subject to any external constraints (such as BTX cooling standards, etc.). For example, the thermal management system 722 can include the cooling fan, heat conduit mechanism, liquid cooling mechanism, and the like.

類似地,該音量管理系統723係用於提供獨立於一電腦系統之冷卻、電源或操作限制的音量管理機制/演算法。舉例來說,特製聲音吸收材料可被用於該DGS 710之機架中。類似地,特殊操作模式可被用於控制該DGS 710之電源供應器721及熱管理系統722的速度/操作以降低噪音。Similarly, the volume management system 723 is used to provide a volume management mechanism/algorithm that is independent of the cooling, power, or operational limitations of a computer system. For example, a special sound absorbing material can be used in the frame of the DGS 710. Similarly, a special mode of operation can be used to control the speed/operation of the power supply 721 and thermal management system 722 of the DGS 710 to reduce noise.

第8圖說明依據本發明之一實施例之DGS 710之內部元件的一示範配置。如第8圖所示,該DGS 710包括一散熱風扇(HSF)801以及一電源供應器風扇(PSF)802以提供該GPU(s)730以及該電源供應器721的熱意散逸。在該第8圖實施例中,這些元件由一音量管理系統723所控制。在第8圖實施例中顯示一分離電源連接803(例如交流電源)連接至該電源供應器721並顯示該顯示器的一專屬連接。Figure 8 illustrates an exemplary configuration of internal components of DGS 710 in accordance with an embodiment of the present invention. As shown in FIG. 8, the DGS 710 includes a cooling fan (HSF) 801 and a power supply fan (PSF) 802 to provide thermal dissipation of the GPU (s) 730 and the power supply 721. In the embodiment of Fig. 8, these components are controlled by a volume management system 723. In the embodiment of Figure 8, a separate power connection 803 (e.g., an AC power source) is shown coupled to the power supply 721 and displays a dedicated connection to the display.

第9圖說明依據本發明之一實施例的一可比例縮放DGS 910。如第9圖所示,該DGS 910包括該DGS橋接器720,其功能為連接多個GPUs與該PCI Express匯流排415。該圖顯示數個GPUs連接至該橋接器720。此於圖中顯示為GPU 1 901、GPU 2 902以及GPU X 904。每個GPU(GPU 1至GPU X)具有一個別連接至該DGS橋接器720的一個別匯流排連線(顯示為連結911-914)。Figure 9 illustrates a scalable DGS 910 in accordance with an embodiment of the present invention. As shown in FIG. 9, the DGS 910 includes the DGS bridge 720, which functions to connect a plurality of GPUs with the PCI Express bus 415. The figure shows a number of GPUs connected to the bridge 720. This is shown in the figure as GPU 1 901, GPU 2 902, and GPU X 904. Each GPU (GPU 1 to GPU X) has an additional bus connection (shown as a link 911-914) that is otherwise connected to the DGS bridge 720.

該DGS 910實施例顯示依據本發明之一實施例的一DGS的比例縮放特徵。該DGS橋接器720之功能在於該連結911-914間協同分享該PCI Express匯流排的資料傳輸頻寬。該分享被用於允許該GPUs協同地自一組合電腦系統(例如電腦系統500)執行3D圖形指令。The DGS 910 embodiment shows a scaling feature of a DGS in accordance with an embodiment of the present invention. The function of the DGS bridge 720 is that the connection 911-914 cooperatively shares the data transmission bandwidth of the PCI Express bus. This sharing is used to allow the GPUs to cooperatively execute 3D graphics instructions from a combined computer system, such as computer system 500.

如前所述,該可用資料傳輸頻寬伴隨一多通道PCI Express匯流排連接(例如一16通道PCI Express匯流排)移除存在於習知技術類型平行匯流排連接中的效能頻頸。該可用資料傳輸頻寬允許一圖形子系統的效能快速地比例縮放。本發明之實施例藉由在一協同運算陣列中使用GPUs而利用此增加的資料傳輸頻寬。As previously mentioned, the available data transmission bandwidth is accompanied by a multi-channel PCI Express bus connection (e.g., a 16-channel PCI Express bus) to remove the performance frequency that exists in conventional technology type parallel bus connections. This available data transmission bandwidth allows the performance of a graphics subsystem to be scaled quickly. Embodiments of the present invention utilize this increased data transmission bandwidth by using GPUs in a collaborative computing array.

圖形處理工作負載可被分配於可用GPUs間因而可平行地執行該工作負載。此協同執行可使圖形子系統演算效能夠快速地提升。此外,由於依據本發明之實施例的一DGS系統之特徵,該提升不會受限於任何組合電腦系統的限制(例如電源限制、熱限制等等)。The graphics processing workload can be allocated between available GPUs so that the workload can be executed in parallel. This collaborative execution enables the graphics subsystem to perform quickly. Moreover, due to the features of a DGS system in accordance with embodiments of the present invention, the boost is not limited by the limitations of any combined computer system (e.g., power limitations, thermal limitations, etc.).

舉例來說,由於該DGS系統910可包含其自有的專屬電源供應器(例如第8圖之電源供應器721),且由於該DGS系統910可包含其自有的熱管理系統(例如第8圖之HSF 801及PSF 802),該整體圖形子系統的效能可自由地隨著科技變化而快速地演進。再者,此電腦系統相關限制的移除允許如第9圖所示包括多GPUs,其提供圖形子系統效能的快速提升。For example, since the DGS system 910 can include its own dedicated power supply (eg, power supply 721 of FIG. 8), and since the DGS system 910 can include its own thermal management system (eg, 8th The HSF 801 and PSF 802 of the figure, the performance of the overall graphics subsystem is free to evolve rapidly as technology changes. Furthermore, the removal of this computer system related restriction allows for the inclusion of multiple GPUs as shown in Figure 9, which provides a rapid increase in graphics subsystem performance.

在一實施例中,該DGS橋接器720之功能在於以一循環排序(round robin)方式分配該PCI Express匯流排415給每個GPU。舉例來說,一16通道PCI Express匯流排415的整體頻寬可於該GPUs執行並完成該整體圖形執行工作負載之部分時被循環排序地分配給該GPUs。替代地,在一實施例中,該橋接器720可實施一仲裁(arbitration)機制,藉此該匯流排415可依據其需求而被分配給該GPUs。In one embodiment, the DGS bridge 720 functions to distribute the PCI Express bus 415 to each GPU in a round robin manner. For example, the overall bandwidth of a 16-lane PCI Express bus 415 can be assigned to the GPUs in a round-robin fashion when the GPUs execute and complete portions of the overall graphics execution workload. Alternatively, in an embodiment, the bridge 720 can implement an arbitration mechanism whereby the bus 415 can be assigned to the GPUs according to its needs.

第10圖顯示一圖表,其說明依據本發明之一實施例而加入一額外GPUs至一DGS 910時演算效能的提升。如第10圖所示,加入額外的GPUs造成該DGS 910之演算能力的一快速提升。舉例來說,自一單一GPU DGS轉變為一雙GPU DGS造成演算能力接近100%的提升。應注意由於需要部分的額外準備時間(overhead)以確保該圖形處理工作負載的適當協同執行,因而該提升演算能力並非完全100%。Figure 10 shows a diagram illustrating the improvement in computational efficiency when adding an additional GPUs to a DGS 910 in accordance with an embodiment of the present invention. As shown in Figure 10, the addition of additional GPUs results in a rapid increase in the computing power of the DGS 910. For example, the transition from a single GPU DGS to a dual GPU DGS resulted in a nearly 100% improvement in calculus. It should be noted that this boosting calculus capability is not 100% due to the need for some additional overhead to ensure proper coordinated execution of the graphics processing workload.

第11圖說明依據本發明之一實施例之安裝GPU 1101的一種以AGP為基礎的配接卡。該GPU 1101包含一圖形處理器1105、一圖形記憶體1106以及一AGP邊緣連接1107。因此該GPU 1101包含可於一典型零售市場中取得的一典型GPU。此一GPU可依據本發明之一實施例被一DGS系統現成地(off-the-shelf)使用。該DGS的機架可包括一AGP邊緣連接槽以接受該邊緣連接GPU 1101。Figure 11 illustrates an AGP-based patching card for mounting a GPU 1101 in accordance with an embodiment of the present invention. The GPU 1101 includes a graphics processor 1105, a graphics memory 1106, and an AGP edge connection 1107. The GPU 1101 therefore includes a typical GPU that can be taken in a typical retail market. Such a GPU can be used off-the-shelf by a DGS system in accordance with an embodiment of the present invention. The DGS rack can include an AGP edge connection slot to accept the edge connection to the GPU 1101.

舉例來說,一使用者可購買該GPU 1101以取代一舊有GPU。可藉由簡單地自該DGS移除該舊有GPU並簡單地插入該新GPU 1101而完成該升級。該移除或取代可藉由要求該使用者打開或以其他方式進入該電腦系統的機架而完成。For example, a user can purchase the GPU 1101 instead of an old GPU. This upgrade can be accomplished by simply removing the legacy GPU from the DGS and simply plugging in the new GPU 1101. This removal or replacement can be accomplished by requiring the user to open or otherwise enter the rack of the computer system.

類似地,舉例來說,該使用者可購買該GPU 1101以補充並移出安裝於該DGS中的既有GPU。此允許該使用者藉由使用前述DGS之協同圖形指令執行特徵而立即地提升該使用者之圖形子系統的效能。Similarly, for example, the user can purchase the GPU 1101 to supplement and remove the existing GPU installed in the DGS. This allows the user to immediately improve the performance of the user's graphics subsystem by using the aforementioned DGS cooperative graphics instruction execution features.

第12圖說明依據本發明之一實施例之安裝GPU 1201的一種以PCI Express為基礎的配接卡。該GPU 1201實質地與該GPU 1101類似。該GPU 1201包含一圖形處理器1205、一圖形記憶體1206以及與第11圖之AGP邊緣連接1107不同的一PCI Express連接1207。此外,該GPU 1201具有一或多個分離電源連接器1208以直接連接電源至該GPU 1201。此電源連接器1208已日趨常見於目前的高效能GPUs。該DGS之機架可包括一PCI Express連接槽以接受該PCI Express連接GPU 1201並亦可包括用於該電源連接器1208的適當插槽。Figure 12 illustrates a PCI Express-based adapter card for mounting GPU 1201 in accordance with an embodiment of the present invention. The GPU 1201 is substantially similar to the GPU 1101. The GPU 1201 includes a graphics processor 1205, a graphics memory 1206, and a PCI Express connection 1207 that is different from the AGP edge connection 1107 of FIG. In addition, the GPU 1201 has one or more separate power connectors 1208 to directly connect power to the GPU 1201. This power connector 1208 has become increasingly common in current high performance GPUs. The DGS rack can include a PCI Express connection slot to accept the PCI Express connection GPU 1201 and can also include appropriate slots for the power connector 1208.

應注意在一實施例中,一DGS可接受不同類型的插卡式GPU。舉例來說,該DGS之機架可包括用於接受以AGP為基礎之GPUs及/或以PCI Express為基礎之GPUs的準備。It should be noted that in an embodiment, a DGS can accept different types of plug-in GPUs. For example, the DGS rack can include provisions for accepting AGP-based GPUs and/or PCI Express-based GPUs.

第13圖說明一方塊圖,其描繪依據本發明之一實施例之一多GPU(圖形處理器)圖形系統1300的內部元件。該多GPU圖形系統包括多個用於執行一電腦系統之圖形指令的GPUs 901-904。一GPU輸出多工器1302以及包含一訊框同步主控元件1301以及個別時脈控制單元1311-1313的一控制單元,均連接至該GPUs 901-904。該多GPU圖形系統1300可用於實施一DGS的協同GPU執行處理。Figure 13 illustrates a block diagram depicting the internal components of a multi-GPU (graphics processor) graphics system 1300 in accordance with one embodiment of the present invention. The multi-GPU graphics system includes a plurality of GPUs 901-904 for executing graphics instructions for a computer system. A GPU output multiplexer 1302 and a control unit including a frame sync master component 1301 and individual clock control units 1311-1313 are coupled to the GPUs 901-904. The multi-GPU graphics system 1300 can be used to implement a collaborative GPU execution process of a DGS.

在本發明中,設置該訊框同步主控元件1301以及個別時脈控制單元1311-1313以控制該GPUs 901-904以及該輸出多工器1302,因而該GPUs 901-904協同地執行該電腦系統之圖形指令。該時脈控制單元1311-1313之功能在於啟動或關閉個別GPUs 901-904。該訊框同步主控元件1301之功能在於同步該個別GPUs 901-904所建立之演算3D圖形訊框。該輸出多工器1302結合該個別GPUs 901-904的輸出以建立一最終GPU輸出串流1330。該記憶體主控元件1320(例如第4圖之橋接器420)控制對該記憶體1321(例如第4圖之系統記憶體402)之存取。In the present invention, the frame synchronization master component 1301 and the individual clock control units 1311-1313 are provided to control the GPUs 901-904 and the output multiplexer 1302, and thus the GPUs 901-904 cooperatively execute the computer system. Graphical instructions. The function of the clock control units 1311-1313 is to activate or deactivate individual GPUs 901-904. The function of the frame synchronization master component 1301 is to synchronize the calculated 3D graphics frames established by the individual GPUs 901-904. The output multiplexer 1302 combines the outputs of the individual GPUs 901-904 to establish a final GPU output stream 1330. The memory master component 1320 (e.g., bridge 420 of FIG. 4) controls access to the memory 1321 (e.g., system memory 402 of FIG. 4).

因此,該多GPU圖形系統1300說明一示範配置,其中位於多個GPUs(例如GPUs 901-904)之間的一協同執行可依據本發明之一實施例加以實施及控制。應注意雖然系統1300說明一示範配置,其他在多個GPUs間的精密協同執行的配置亦為可行的。Accordingly, the multi-GPU graphics system 1300 illustrates an exemplary configuration in which a coordinated execution between multiple GPUs (e.g., GPUs 901-904) can be implemented and controlled in accordance with an embodiment of the present invention. It should be noted that while system 1300 illustrates an exemplary configuration, other configurations of precision coordinated execution between multiple GPUs are also possible.

第14圖說明一圖表,其描繪依據本發明之一實施例一多GPU圖形系統1300可用的操作範圍。該圖形系統1300可用於低電力模式及高電力模式。舉例來說,當實施一低電力模式時,該控制器單元關閉一或多個該GPUs 901-904。此雖可節省電力然而也會降低該圖形系統1300的峰值效能。當實施一高電力模式時,該控制器單元啟動額外的GPUs以提供額外的演算效能。此增加效能演算峰值然而也會增加該電力消耗。Figure 14 illustrates a diagram depicting the operational range available for a multi-GPU graphics system 1300 in accordance with an embodiment of the present invention. The graphics system 1300 can be used in both low power mode and high power mode. For example, when implementing a low power mode, the controller unit turns off one or more of the GPUs 901-904. This saves power but also reduces the peak performance of the graphics system 1300. When implementing a high power mode, the controller unit activates additional GPUs to provide additional computational efficiency. This increase in performance peaks, however, also increases the power consumption.

此種實施不同的電力及效能操作模式的能力可使一GPU圖形系統1300於數個不同的電力/效能位置上操作。此特徵與第14圖中以圖形方式描繪為該GPU圖形系統1300的操作包絡線(operating envelope)1401,其相較於一列名習知技術GPU結構的包絡線1402要大上許多。This ability to implement different power and performance modes of operation allows a GPU graphics system 1300 to operate at several different power/performance locations. This feature is graphically depicted in FIG. 14 as the operating envelope 1401 of the GPU graphics system 1300, which is much larger than the envelope 1402 of a list of prior art GPU architectures.

第15圖說明一示圖,其描繪每個該GPUs 901-904執行該個別圖形指令工作負載的方式。例如在一實施例中,演算工作負載的序列訊框被分配給該GPUs 901-904(例如訊框1、訊框2一直到訊框N+N)。可以一時間交錯方式分配該序列訊框至該GPUs 901-904,因而該訊框實質上可被平行地執行並可由該輸出多工器結合為一重複(snooze)為中斷GPU輸出串流,如線段1501所示。在此方式中,該GPUs平行地執行每個該GPUs 901-904之個別圖形指令工作負載。Figure 15 illustrates a diagram depicting the manner in which each of the GPUs 901-904 executes the individual graphics instruction workload. For example, in one embodiment, a sequence of computational workloads is assigned to the GPUs 901-904 (e.g., frame 1, frame 2 up to frame N+N). The sequence frame can be allocated to the GPUs 901-904 in a time-interleaved manner, such that the frame can be substantially executed in parallel and can be combined by the output multiplexer into a snooze for interrupting the GPU output stream, such as Line segment 1501 is shown. In this manner, the GPUs execute individual graphics instruction workloads for each of the GPUs 901-904 in parallel.

應注意雖然該多GPU圖形系統1300可對連接至該電腦系統之一DGS實施功能,該多GPU圖形系統1300也可被直接地建立於一電腦系統之一機架中(例如直接併入一桌上型電腦系統中)。It should be noted that while the multi-GPU graphics system 1300 can perform functions on a DGS connected to one of the computer systems, the multi-GPU graphics system 1300 can also be directly built into a rack of a computer system (eg, directly incorporated into a table) In the upper computer system).

在一實施例中,每個該GPUs 901-904具有自己的時脈,因而時脈分配以及該晶片或系統間的GPU-to-GPU時差(skew)便不若其他設計般的嚴重。此可大量地降低晶片或電路板配置的成本及複雜度。每個GPU負責與其鄰近GPUs建立一部份的輸出串流1330(例如訊框、訊框串等等)。在一實施例中,該GPUs 901-904整體而言以一稍微快於一應用程式(例如一3D演算應用程式)所需要的訊框速率執行以消除複合影像序列的訊框斷續(frame stuttering)。如第13圖所示,該輸出多工器1302結合這些訊框以建立該最終的N訊框/秒。此大大地擴展該系統1300的填入速率以及訊框速率效能而無須重新設計該GPU核心或使用「高風險(bleeding edge)」半導體製程以及超高頻率。在一實施例中,該GPUs陣列分享記憶體,因此該整體系統成本遠低於其他結構。該GPU-to-GPU時差、訊框分配以及輸出多工器1302由該訊框同步主控元件1301所管理。In one embodiment, each of the GPUs 901-904 has its own clock, and thus the clock distribution and the GPU-to-GPU skew between the wafers or systems are not as severe as other designs. This can greatly reduce the cost and complexity of the wafer or board configuration. Each GPU is responsible for establishing a portion of the output stream 1330 (e.g., frame, frame, etc.) with its neighboring GPUs. In one embodiment, the GPUs 901-904 are generally executed at a frame rate that is slightly faster than an application (eg, a 3D calculus application) to eliminate frame discontinuity of the composite image sequence (frame stuttering). ). As shown in Figure 13, the output multiplexer 1302 combines these frames to establish the final N frame/second. This greatly expands the fill rate and frame rate performance of the system 1300 without the need to redesign the GPU core or use "bleeding edge" semiconductor processes and ultra-high frequencies. In one embodiment, the GPUs array share memory, so the overall system cost is much lower than other structures. The GPU-to-GPU time difference, frame allocation, and output multiplexer 1302 are managed by the frame synchronization master component 1301.

在此方式中,該系統1300結構提供數種好處。舉例來說,對於一AC限制(AC-tethered)之超高效能圖形實施如工作站及桌上型電腦應用程式而言,可再使用GPU核心或利用PCB上晶片解決方案的一超級尺寸(super-scaled)晶片上(on-chip)設計可達成超高效能。類似地,該相同的基本可重定目標(re-targetable)GPU建構組件可對超低電力圖形解決方案(例如對於可攜帶應用程式如行動電話、個人數位助理以及可移動電腦等等)提供圖形效能。此特徵於建立極限效能及極限移動圖形解決方案之各GPU世代產品時將產生一市場時效性以及NRE(非重複性工程)成本優勢。大大降低的時脈可提供可比擬之填入速率及訊框速率,因而建立效能但電力消耗卻低上許多。舉例來說,如前所述,該個別GPU時脈(clock-per-GPU)特徵允許未使用GPUs可依據一應用程式之指定被動態地啟動或關閉。類似的2D介面及DVD或mpeg播放將僅需要啟動該整體系統1300的一部份,因而大大地降低電力消耗。In this manner, the system 1300 architecture provides several benefits. For example, for an AC-tethered ultra-high performance graphics implementation such as workstation and desktop applications, the GPU core can be reused or a super size of the on-chip chip solution can be used (super- Scaled) On-chip design can achieve ultra-high performance. Similarly, the same basic re-targetable GPU building component provides graphics performance for ultra-low power graphics solutions such as portable applications such as mobile phones, personal digital assistants, and mobile computers. . This feature will yield a market timeliness and NRE (non-repetitive engineering) cost advantage when building GPU generation products for extreme performance and extreme mobile graphics solutions. The greatly reduced clock provides comparable fill rates and frame rates, thus establishing performance but with much lower power consumption. For example, as previously discussed, the individual GPU-clock-per-GPU feature allows unused GPUs to be dynamically enabled or disabled depending on the designation of an application. A similar 2D interface and DVD or mpeg playback would only require activating a portion of the overall system 1300, thereby greatly reducing power consumption.

應注意即使該圖形系統1300已於一種以DGS機架為基礎之系統的上下文中加以說明,該圖形系統1300結構可被實施於一廣泛範圍的電腦系統平台中,包括例如桌上型電腦、工作站、移動式個人電腦、行動電話、個人數位助理、晶片組等等。It should be noted that even though the graphics system 1300 has been described in the context of a DGS rack-based system, the graphics system 1300 architecture can be implemented in a wide range of computer system platforms, including, for example, desktop computers, workstations. , mobile PCs, mobile phones, personal digital assistants, chipsets, and more.

現在參照第16至21圖,其中顯示依據本發明之一實施例的一DGS的多個圖片。第16圖顯示依據本發明之一實施例之一DGS的側視圖。第17圖顯示該DGS的一前視圖。第18圖顯示該DGS移去機架外罩的一圖片。此圖片顯示兩種連接至該DGS機架的內部GPU卡。第19圖顯示該DGS機架外罩正被關閉中的一圖片。第20圖顯示透過一PCI Express線路連接至一筆記型電腦系統的DGS圖片。第21圖顯示該DGS驅動該筆記型電腦系統之顯示器的一圖片。Referring now to Figures 16 through 21, there are shown a plurality of pictures of a DGS in accordance with an embodiment of the present invention. Figure 16 shows a side view of a DGS in accordance with one embodiment of the present invention. Figure 17 shows a front view of the DGS. Figure 18 shows a picture of the DGS removing the frame cover. This image shows two internal GPU cards connected to the DGS rack. Figure 19 shows a picture of the DGS rack cover being closed. Figure 20 shows a DGS image connected to a notebook system via a PCI Express line. Figure 21 shows a picture of the display that the DGS drives the notebook system.

廣言之,此文件說明以下事物。此處揭露一分離式圖形系統(DGS)以供執行一電腦系統之3D圖形指令、一DGS單元以及一可比例縮放DGS。該分離式圖形系統包括一GPU以供執行3D圖形指令以及一DGS系統機架用於容納該GPU。一序列匯流排連接器連接至該GPU以及該DGS機架。該序列匯流排連接器用於可具移除式地將該DGS以及該GPU連接至該電腦系統。該DGS之GPU透過該序列匯流排連接器存取該電腦系統以執行該電腦系統之3D圖形指令。Broadly speaking, this document explains the following things. A separate graphics system (DGS) is disclosed herein for executing a 3D graphics command of a computer system, a DGS unit, and a scalable DGS. The split graphics system includes a GPU for executing 3D graphics instructions and a DGS system rack for housing the GPU. A sequence of busbar connectors is coupled to the GPU and the DGS rack. The sequence bus bar connector is for removably connecting the DGS and the GPU to the computer system. The GPU of the DGS accesses the computer system through the serial bus connector to execute 3D graphics commands of the computer system.

廣言之,此文件揭露一可比例縮放分離式圖形系統(DGS)。該DGS包括一序列匯流排橋接器用以將多個GPUs連接至一匯流排。一序列匯流排連接器被連接至該序列匯流排橋接器。一系統機架連接至該序列匯流排橋接器以及該序列匯流排連接器並用於容納該GPUs。該序列匯流排連接器用於可具移除式地連接至一電腦系統。該GPUs透過該序列匯流排橋接器及該序列匯流排連接器存取該電腦系統以協同地執行該電腦系統之3D圖形指令。Broadly speaking, this document discloses a scalable scaled graphics system (DGS). The DGS includes a sequence of bus bars for connecting a plurality of GPUs to a bus. A sequence of bus bar connectors is connected to the sequence bus bar bridge. A system rack is coupled to the sequence bus bridge and the serial bus connector and is configured to house the GPUs. The sequence bus bar connector is for removably connecting to a computer system. The GPUs access the computer system through the serial bus bridge and the serial bus connector to cooperatively execute 3D graphics commands of the computer system.

廣言之,此文件揭露一DGS(分離式圖形系統)單元。該DGS單元包括一系統機架用以容納一GPU、該GPU以供執行3圖形指令以及連接至該系統機架並用於接受一GPU的一GPU安裝單元。一序列匯流排連接器連接該機架並連接至該GPU安裝單元,其中該序列匯流排連接器用於可具移除式地將該GPU連接至一電腦系統以使該GPU可透過該序列匯流排連接器存取該電腦系統並執行該電腦系統之3D圖形指令。一電源供應器連接至該系統機架以提供獨立於該電腦系統之電源至該GPU。Broadly speaking, this document reveals a DGS (Separate Graphics System) unit. The DGS unit includes a system rack for housing a GPU for executing graphics instructions and a GPU mounting unit coupled to the system chassis and for accepting a GPU. a sequence of busbar connectors connected to the rack and connected to the GPU mounting unit, wherein the serial busbar connector is configured to removably connect the GPU to a computer system to enable the GPU to pass through the sequence bus The connector accesses the computer system and executes 3D graphics commands of the computer system. A power supply is coupled to the system rack to provide power independent of the computer system to the GPU.

廣言之,本文件揭露一分離式圖形系統(DGS)以供執行一電腦系統之3D圖形指令。該分離式圖形系統包括一GPU以供執行3D圖形指令以及一DGS系統機架用以容納該GPU。一序列匯流排連接器連接至該GPU以及該DGS機架。該序列匯流排連接器用於可具移除式地將該DGS以及該GPU連接至該電腦系統。該DGS之GPU透過該序列匯流排連接器存取該電腦系統並執行該電腦系統之3D圖形指令。,Broadly speaking, this document discloses a separate graphics system (DGS) for executing 3D graphics instructions of a computer system. The split graphics system includes a GPU for executing 3D graphics instructions and a DGS system chassis for housing the GPU. A sequence of busbar connectors is coupled to the GPU and the DGS rack. The sequence bus bar connector is for removably connecting the DGS and the GPU to the computer system. The GPU of the DGS accesses the computer system through the serial bus connector and executes 3D graphics commands of the computer system. ,

前述關於本發明之特定實施例的說明已基於說明及描述之目的加以闡示。該些說明無意為耗盡的或將本發明限於以揭露之確切形式,且由上述說明中可明顯看出許多修改及變化均為可能的。選擇並描述該實施例以最佳地解釋本發明之原理及其實際應用,藉以使其他習知技藝人士能最佳地利用本發明以及各種實施例伴隨各種適合預期特定用途的修改。本發明之範圍應僅限於此文件附加之申請專利範圍及其均等物。The foregoing description of the specific embodiments of the invention has in the The illustrations are not intended to be exhaustive or to limit the invention to the precise form of the disclosure, and it is obvious that many modifications and variations are possible. The embodiment was chosen and described in order to best explain the embodiment of the invention, The scope of the invention should be limited only by the scope of the appended claims and their equivalents.

100,300,400,500...電腦系統100,300,400,500. . . computer system

101,301,401...中央處理器(CPU)101,301,401. . . Central processing unit (CPU)

102,302...系統記憶體102,302. . . System memory

110,310,410,710,910...分離式圖形系統(DGS)110,310,410,710,910. . . Separate Graphics System (DGS)

115,415...匯流排115,415. . . Busbar

120,320,420,720...橋接器120,320,420,720. . . Bridge

201...顯示器201. . . monitor

202...顯示配接卡線路202. . . Display adapter line

330,730,901,902,904,1101,1105,1201,1205...圖形處理器(GPU)330,730,901,902,904,1101,1105,1201,1205. . . Graphics processor (GPU)

421...磁碟機421. . . Disk drive

422...DVD光碟機422. . . DVD player

424...北橋424. . . North Bridge

425...南橋425. . . South Bridge

601,602...連接器601,602. . . Connector

721...電源供應器721. . . Power Supplier

722...熱管理系統722. . . Thermal management system

723...聲音管理系統723. . . Sound management system

801...散熱風扇(HSF)801. . . Cooling fan (HSF)

802...電源供應器風扇(PSF)802. . . Power supply fan (PSF)

803...電源803. . . power supply

911-914...連接911-914. . . connection

1106,1206...圖形記憶體1106,1206. . . Graphics memory

1107...AGP邊緣連接1107. . . AGP edge connection

1207...PCI Express連接1207. . . PCI Express connection

1208...電源連接器1208. . . Power connector

1300...多GPU圖形系統1300. . . Multi-GPU graphics system

1301...訊框同步主控元件1301. . . Frame synchronization master

1311-1313...時脈控制單元1311-1313. . . Clock control unit

1320...記憶體主控元件1320. . . Memory master

1321...記憶體1321. . . Memory

1330...GPU輸出串流1330. . . GPU output stream

1401,1402...操作包絡線1401,1402. . . Operating envelope

1501...線段1501. . . Line segment

藉由範例而非受限地於該附加圖示之圖中說明本發明,其中相似的參照編號係指相似的項目。The invention is illustrated by way of example, and not limitation, in the FIG

第1圖說明依據本發明之一實施例的一電腦系統。Figure 1 illustrates a computer system in accordance with an embodiment of the present invention.

第2圖說明依據本發明之一實施例的一DGS,其中連接該DGS以驅動一顯示器。Figure 2 illustrates a DGS in accordance with an embodiment of the present invention in which the DGS is coupled to drive a display.

第3圖說明依據本發明之一實施例的一DGS,其中配置該DGS以利用直接連至一電腦系統的顯示器。Figure 3 illustrates a DGS in accordance with an embodiment of the present invention in which the DGS is configured to utilize a display directly connected to a computer system.

第4圖說明依據本發明之一實施例之一電腦系統的部分元件以及一匯流排。Figure 4 illustrates some of the components of a computer system and a busbar in accordance with one embodiment of the present invention.

第5圖說明依據本發明之一實施例之一電腦系統的部分元件。Figure 5 illustrates some of the components of a computer system in accordance with one embodiment of the present invention.

第6圖說明一示圖,其描繪依據本發明之一實施例的一DGS透過PCI Express連接器連接至一電腦系統的方式。Figure 6 illustrates a diagram depicting the manner in which a DGS is coupled to a computer system via a PCI Express connector in accordance with an embodiment of the present invention.

第7圖說明依據本發明之一實施例之一DGS的內部元件。Figure 7 illustrates the internal components of a DGS in accordance with one embodiment of the present invention.

第8圖說依據本發明之一實施例之DGS的內部元件的示範配置。Figure 8 illustrates an exemplary configuration of internal components of a DGS in accordance with an embodiment of the present invention.

第9圖說明依據本發明之一實施例的一可比例縮放DGS。Figure 9 illustrates a scalable DGS in accordance with an embodiment of the present invention.

第10圖顯示一圖表,其說明當依據本發明之一實施例而將額外GPUs加至一DGS時於演算效能上的提升。Figure 10 shows a diagram illustrating the improvement in computational efficiency when additional GPUs are added to a DGS in accordance with an embodiment of the present invention.

第11圖說明依據本發明之一實施例而以AGP為基礎的插卡安裝式GPU。Figure 11 illustrates an AGP-based card-mounted GPU in accordance with an embodiment of the present invention.

第12圖說明依據本發明之一實施例而以一PCI Express為基礎的插卡安裝式GPU。Figure 12 illustrates a PCI Express based card-mounted GPU in accordance with an embodiment of the present invention.

第13圖說明一方塊圖,其描繪依據本發明之一實施例之一多GPU(圖形處理器單元)圖形系統的內部元件。Figure 13 illustrates a block diagram depicting the internal components of a multi-GPU (graphics processor unit) graphics system in accordance with one embodiment of the present invention.

第14圖顯示一圖表,其描繪依據本發明之一態樣而能使一多GPU圖形系統取得的操作範圍。Figure 14 shows a diagram depicting the operational range that can be achieved by a multi-GPU graphics system in accordance with one aspect of the present invention.

第15圖顯示一示圖,其描繪每個GPU執行該個別圖形指令工作負載的方式。Figure 15 shows a diagram depicting how each GPU executes the individual graphics instruction workload.

第16圖顯示依據本發明之一實施例之一DGS的一側視圖。Figure 16 shows a side view of a DGS in accordance with one embodiment of the present invention.

第17圖顯示依據本發明之一實施例之一DGS的一前視圖。Figure 17 shows a front view of a DGS in accordance with one embodiment of the present invention.

第18圖顯示依據本發明之一實施例之一移除機架外罩的一DGS外觀。Figure 18 shows the appearance of a DGS that removes the frame cover in accordance with one embodiment of the present invention.

第19圖顯示依據本發明之一實施例之DGS的關閉中機架外罩的一外觀。Figure 19 shows an appearance of the closed mid-rack cover of the DGS in accordance with an embodiment of the present invention.

第20圖說明依據本發明之一實施例而透過一PCI Express線路連接至一筆記型電腦系統的DGS的一外觀。Figure 20 illustrates an appearance of a DGS connected to a notebook computer system via a PCI Express line in accordance with an embodiment of the present invention.

第21圖說明依據本發明之一實施例而驅動該筆記型電腦系統之顯示器的DGS的一外觀。Figure 21 illustrates an appearance of a DGS that drives a display of the notebook computer system in accordance with an embodiment of the present invention.

101...中央處理器101. . . CPU

100...電腦系統100. . . computer system

102...系統記憶體102. . . System memory

120...橋接器120. . . Bridge

110...分離式圖形系統110. . . Separate graphics system

Claims (66)

一種分離式圖形系統,包含:一圖形處理單元(GPU),用以執行3D圖形指令;一系統機架,用以容置該GPU,其中該系統機架包含一電源供應器,用以供給電源給獨立於一外部電腦系統之該GPU;以及一序列匯流排連接器,耦合至該GPU及該系統機架,其中該序列匯流排連接器係用以可移除式地連接該GPU至容置於一外部電腦系統機架中之該外部電腦系統,且其中該GPU透過該序列匯流排連接器存取該外部電腦系統以執行針對該外部電腦系統之該3D圖形指令,且該3D圖形指令之執行的結果係傳回至該外部電腦系統,且其中該GPU可驅動耦合至獨立於一電腦系統GPU之該外部電腦系統的一顯示器。 A separate graphics system includes: a graphics processing unit (GPU) for executing 3D graphics instructions; a system rack for housing the GPU, wherein the system rack includes a power supply for supplying power Having the GPU independent of an external computer system; and a sequence of busbar connectors coupled to the GPU and the system rack, wherein the serial busbar connector is configured to removably connect the GPU to the accommodating An external computer system in an external computer system rack, and wherein the GPU accesses the external computer system through the serial bus connector to execute the 3D graphics command for the external computer system, and the 3D graphics command The results of the execution are passed back to the external computer system, and wherein the GPU can drive a display coupled to the external computer system independent of a computer system GPU. 如申請專利範圍第1項所述之分離式圖形系統,其中該序列匯流排連接器為一PCI Express連接器。 The split graphics system of claim 1, wherein the serial bus connector is a PCI Express connector. 如申請專利範圍第1項所述之分離式圖形系統,其中該GPU係可移除式地耦合至該序列匯流排連接器以及該系統機架。 The split graphics system of claim 1, wherein the GPU is removably coupled to the sequence bus connector and the system rack. 如申請專利範圍第1項所述之分離式圖形系統,其中該 GPU為耦合至該序列匯流排連接器的一插卡式GPU。 A separate graphic system as described in claim 1, wherein the The GPU is a plug-in GPU that is coupled to the serial bus connector. 如申請專利範圍第1項所述之分離式圖形系統,其中該GPU係用以執行來自該外部電腦系統之該3D圖形指令,以驅動耦合至該GPU的一顯示器。 The split graphics system of claim 1, wherein the GPU is configured to execute the 3D graphics instructions from the external computer system to drive a display coupled to the GPU. 如申請專利範圍第1項所述之分離式圖形系統,更包含:複數個GPU,耦合至該系統機架及該序列匯流排連接器,且用以協同地(cooperatively)執行來自該外部電腦系統之該3D圖形指令。 The separate graphics system of claim 1, further comprising: a plurality of GPUs coupled to the system rack and the serial bus connector, and configured to cooperatively execute from the external computer system The 3D graphics instructions. 如申請專利範圍第1項所述之分離式圖形系統,更包含:一熱管理系統,耦合至該系統機架以冷卻獨立於該外部電腦系統之該GPU。 The split graphics system of claim 1, further comprising: a thermal management system coupled to the system rack to cool the GPU independent of the external computer system. 如申請專利範圍第1項所述之分離式圖形系統,其中該GPU可依據一應用程式之指定而動態地啟動或關閉。 The separate graphics system of claim 1, wherein the GPU can be dynamically turned on or off according to an application specification. 如申請專利範圍第1項所述之分離式圖形系統,其中該GPU可驅動直接耦合至一電腦系統GPU的一顯示器。 The split graphics system of claim 1, wherein the GPU can drive a display that is directly coupled to a computer system GPU. 一種用於一分離式圖形系統的方法,包含:使用一GPU執行3D圖形指令; 將該GPU容置於一系統機架中,其中該系統機架包含一電源供應器,用以供給電源給獨立於一外部電腦系統之該GPU;藉由使用該GPU透過一序列匯流排連接器而存取該外部電腦系統,以執行針對該外部電腦系統之該3D圖形指令,其中該序列匯流排連接器係耦合至該GPU及該系統機架,且其中該序列匯流排連接器係以可移除式地將該GPU連接至該外部電腦系統;以及將該3D圖形指令之執行的結果傳回至該外部電腦系統,其中該GPU可驅動耦合至獨立於一電腦系統GPU之該外部電腦系統的一顯示器。 A method for a separate graphics system, comprising: executing a 3D graphics instruction using a GPU; The GPU is housed in a system rack, wherein the system rack includes a power supply for supplying power to the GPU independent of an external computer system; by using the GPU through a serial bus connector And accessing the external computer system to execute the 3D graphics command for the external computer system, wherein the serial bus connector is coupled to the GPU and the system chassis, and wherein the serial bus connector is Removably connecting the GPU to the external computer system; and transmitting the result of execution of the 3D graphics instruction back to the external computer system, wherein the GPU is drivably coupled to the external computer system independent of a computer system GPU a monitor. 如申請專利範圍第10項所述之方法,其中該序列匯流排連接器為一PCI Express連接器。 The method of claim 10, wherein the serial bus connector is a PCI Express connector. 如申請專利範圍第10項所述之方法,其中該GPU係可移除式地耦合至該序列匯流排連接器以及該系統機架。 The method of claim 10, wherein the GPU is removably coupled to the sequence bus connector and the system rack. 如申請專利範圍第10項所述之方法,其中該GPU為耦合至該序列匯流排連接器的一插卡式GPU。 The method of claim 10, wherein the GPU is a plug-in GPU coupled to the serial bus connector. 如申請專利範圍第10項所述之方法,其中該GPU係 執行來自該外部電腦系統之該3D圖形指令,以驅動耦合至該GPU的一顯示器。 The method of claim 10, wherein the GPU system The 3D graphics instructions from the external computer system are executed to drive a display coupled to the GPU. 如申請專利範圍第10項所述之方法,更包含:藉由使用耦合至該系統機架及該序列匯流排連接器的複數個GPU而協同地執行來自該外部電腦系統之3D圖形指令。 The method of claim 10, further comprising: cooperatively executing 3D graphics instructions from the external computer system by using a plurality of GPUs coupled to the system chassis and the serial bus connector. 如申請專利範圍第10項所述之方法,更包含:藉由使用耦合至該系統機架之一熱管理系統而冷卻獨立於該外部電腦系統之該GPU。 The method of claim 10, further comprising: cooling the GPU independent of the external computer system by using a thermal management system coupled to the system rack. 一種組態用於一分離式圖形演算系統之電腦系統,包含:在一第一機架中之一電腦系統;用以執行3D圖形指令的一GPU;一第二機架,容置該GPU,其中該第二機架包含一電源供應器,用以供給電源給獨立於該電腦系統之該GPU,且其中該第二機架包含一第一GPU插槽及一第二GPU插槽,且該GPU係耦合至該第一GPU插槽;以及一序列匯流排連接器,耦合至該GPU及該第二機架,其中該序列匯流排連接器係用以可移除式地連接 該GPU至該電腦系統,且其中該GPU透過該序列匯流排連接器存取該電腦系統以執行針對該電腦系統之該3D圖形指令,且該3D圖形指令之執行的結果係傳回至該電腦系統,且其中該GPU可驅動耦合至獨立於一電腦系統GPU之該電腦系統的一顯示器。 A computer system configured for a separate graphics computing system, comprising: a computer system in a first rack; a GPU for executing 3D graphics commands; and a second rack housing the GPU The second rack includes a power supply for supplying power to the GPU independent of the computer system, and wherein the second rack includes a first GPU slot and a second GPU slot, and the second rack a GPU is coupled to the first GPU slot; and a sequence of busbar connectors coupled to the GPU and the second chassis, wherein the serial busbar connector is for removably connecting The GPU to the computer system, and wherein the GPU accesses the computer system through the serial bus connector to execute the 3D graphics command for the computer system, and the result of execution of the 3D graphics command is transmitted back to the computer A system, and wherein the GPU can drive a display coupled to the computer system independent of a computer system GPU. 如申請專利範圍第17項所述之系統,其中該GPU係執行來自該電腦系統之該3D圖形指令,以驅動耦合至該GPU的一顯示器。 The system of claim 17 wherein the GPU is to execute the 3D graphics instructions from the computer system to drive a display coupled to the GPU. 如申請專利範圍第17項所述之系統,更包含:複數個GPU,耦合至該第二機架及該序列匯流排連接器,且協同地執行來自該電腦系統之該3D圖形指令。 The system of claim 17, further comprising: a plurality of GPUs coupled to the second chassis and the serial bus connector, and cooperatively executing the 3D graphics instructions from the computer system. 如申請專利範圍第17項所述之系統,其中該序列匯流排連接器允許該GPU動態地耦合至該電腦系統。 The system of claim 17, wherein the serial bus connector allows the GPU to be dynamically coupled to the computer system. 如申請專利範圍第17項所述之系統,其中該GPU為一多GPU附加圖形卡。 The system of claim 17, wherein the GPU is a multi-GPU add-on graphics card. 如申請專利範圍第21項所述之系統,其中該第二GPU插槽可操作以接收一額外GPU,其中該額外GPU為一多 GPU附加圖形卡。 The system of claim 21, wherein the second GPU slot is operable to receive an additional GPU, wherein the additional GPU is more than one GPU attached graphics card. 一種分離式圖形系統(DGS)單元,包含:一系統機架,用以容置一GPU,該GPU用於執行3D圖形指令;一GPU安裝單元(GPU mounting unit),耦合至該系統機架且用以可移除式地接收該GPU;一序列匯流排連接器,耦合至該機架並耦合至該GPU安裝單元,其中該序列匯流排連接器係用以可移除式地將該GPU連接至一電腦系統,以致能該GPU透過該序列匯流排連接器存取該電腦系統並執行針對該電腦系統之該3D圖形指令,且其中該序列匯流排連接器可操作以熱插拔該GPU至該電腦系統,且其中該序列匯流排連接器可操作以致能該GPU經由該電腦系統之一序列匯流排而通訊;及一電源供應器,耦合至該系統機架以供應電源至獨立於該電腦系統之該GPU。 A separate graphics system (DGS) unit includes: a system rack for accommodating a GPU for executing 3D graphics instructions; a GPU mounting unit coupled to the system rack and Removably receiving the GPU; a sequence of busbar connectors coupled to the chassis and coupled to the GPU mounting unit, wherein the serial busbar connector is configured to removably connect the GPU To a computer system, such that the GPU accesses the computer system through the serial bus connector and executes the 3D graphics command for the computer system, and wherein the serial bus bar connector is operable to hot plug the GPU to The computer system, and wherein the serial bus bar connector is operable to enable the GPU to communicate via a serial bus of the computer system; and a power supply coupled to the system rack to supply power to the computer independent of the computer The GPU of the system. 如申請專利範圍第23項所述之DGS單元,其中該系統機架包括一可移除式外罩,用以包含該GPU並致能對該GPU的存取。 The DGS unit of claim 23, wherein the system rack includes a removable housing for containing the GPU and enabling access to the GPU. 如申請專利範圍第23項所述之DGS單元,更包含耦 合至該機架的一熱散逸單元用以冷卻該GPU,其中該冷卻係獨立於該電腦系統而被提供。 For example, the DGS unit mentioned in the 23rd patent application scope is more coupled. A heat dissipation unit coupled to the frame is used to cool the GPU, wherein the cooling is provided independently of the computer system. 如申請專利範圍第23項所述之DGS單元,其中該序列匯流排連接器為一PCI Express連接器,用以透過一PCI Express線路而連接至該電腦系統。 The DGS unit of claim 23, wherein the serial bus connector is a PCI Express connector for connecting to the computer system via a PCI Express line. 如申請專利範圍第23項所述之DGS單元,其中該GPU安裝單元係用以可移除式地耦合至該GPU並將該GPU連接至該序列匯流排連接器及該系統機架。 The DGS unit of claim 23, wherein the GPU mounting unit is to be removably coupled to the GPU and to connect the GPU to the serial bus connector and the system rack. 如申請專利範圍第27項所述之DGS單元,其中該GPU安裝單元係用以接受一以AGP為基礎之插卡安裝式GPU(AGP-based card mounted GPU)。 The DGS unit of claim 27, wherein the GPU installation unit is configured to accept an AGP-based card mounted GPU. 如申請專利範圍第27項所述之DGS單元,其中該GPU安裝單元係用以接受一以PCI為基礎之插卡安裝式GPU(PCI-express based card mounted GPU)。 The DGS unit of claim 27, wherein the GPU mounting unit is configured to accept a PCI-express based card mounted GPU. 如申請專利範圍第27項所述之DGS單元,其中該GPU安裝單元係用以熱插拔一插卡安裝式GPU。 The DGS unit of claim 27, wherein the GPU mounting unit is configured to hot plug a plug-in GPU. 如申請專利範圍第23項所述之DGS單元,其中該GPU 係用以執行來自該電腦系統之該3D圖形指令,以驅動耦合至該電腦系統之一顯示器。 The DGS unit of claim 23, wherein the GPU Used to execute the 3D graphics instructions from the computer system to drive a display coupled to one of the computer systems. 如申請專利範圍第23項所述之DGS單元,更包含:一顯示器連接器,用以耦合至一顯示器並致能該GPU執行來自該電腦系統之該3D圖形指令,以驅動該顯示器。 The DGS unit of claim 23, further comprising: a display connector for coupling to a display and enabling the GPU to execute the 3D graphics command from the computer system to drive the display. 如申請專利範圍第23項所述之DGS單元,其中該GPU安裝單元係用以接收複數個GPU並將該GPU耦合至該序列匯流排連接器而致能該GPU協同地執行來自該電腦系統之該3D圖形指令。 The DGS unit of claim 23, wherein the GPU installation unit is configured to receive a plurality of GPUs and couple the GPU to the serial bus connector to enable the GPU to cooperatively execute from the computer system The 3D graphics instructions. 一種分離式圖形系統(DGS)外罩,包含:一樞紐轉軸(hinged)系統機架,具有一上半部及一下半部用以容置一GPU,該GPU用以執行3D圖形指令;一GPU連接器,耦合至該系統機架並用以可移除式地接收該GPU;一序列匯流排連接器,耦合至該機架並耦合至該GPU連接器,其中該序列匯流排連接器係用以可移除式地將該GPU連接至一電腦系統,以致能該GPU透過該序列匯流排連接器存取該電腦系統並執行針對該 電腦系統之該3D圖形指令,且其中該序列匯流排連接器可操作以熱插拔(hot-plug)該GPU至該電腦系統,且其中該序列匯流排連接器可操作以致能該GPU經由該電腦系統之一序列匯流排而通訊;一電源供應器,耦合至該系統機架以供應電源至獨立於該電腦系統之該GPU;以及一熱散逸單元,耦合至該機架以冷卻該GPU,其中該冷卻係獨立於該電腦系統。 A separate graphics system (DGS) housing includes: a hinged system rack having an upper half and a lower half for housing a GPU for executing 3D graphics commands; a GPU connection And coupled to the system rack and for removably receiving the GPU; a sequence of busbar connectors coupled to the rack and coupled to the GPU connector, wherein the serial busbar connector is Removably connecting the GPU to a computer system such that the GPU accesses the computer system through the serial bus connector and performs The 3D graphics command of the computer system, and wherein the sequence bus bar connector is operable to hot-plug the GPU to the computer system, and wherein the sequence bus bar connector is operative to enable the GPU to pass the One of the computer systems is in communication with the serial bus; a power supply coupled to the system rack to supply power to the GPU independent of the computer system; and a heat dissipation unit coupled to the rack to cool the GPU, Wherein the cooling is independent of the computer system. 如申請專利範圍第34項所述之DGS外罩,其中該系統機架包括一可移除式外罩,用以包含該GPU並致能對該GPU的存取。 The DGS enclosure of claim 34, wherein the system rack includes a removable housing for containing the GPU and enabling access to the GPU. 如申請專利範圍第34項所述之DGS外罩,其中該序列匯流排連接器為一PCI Express連接器,用以透過一PCI Express線路連接至該電腦系統。 The DGS cover of claim 34, wherein the serial bus connector is a PCI Express connector for connecting to the computer system via a PCI Express line. 如申請專利範圍第34項所述之DGS外罩,其中該GPU安裝單元係用以可移除式地耦合至該GPU並將該GPU連接至該序列匯流排連接器及該系統機架。 A DGS enclosure as claimed in claim 34, wherein the GPU mounting unit is for removably coupling to the GPU and connecting the GPU to the serial busbar connector and the system rack. 如申請專利範圍第37項所述之DGS外罩,其中該GPU安裝單元係用以熱插拔一插卡安裝式GPU。 The DGS cover of claim 37, wherein the GPU mounting unit is for hot plugging a card mounted GPU. 如申請專利範圍第34項所述之DGS外罩,其中該GPU係用以執行來自該電腦系統之該3D圖形指令,以驅動耦合至該電腦系統之一顯示器。 The DGS cover of claim 34, wherein the GPU is configured to execute the 3D graphics command from the computer system to drive a display coupled to the computer system. 如申請專利範圍第34項所述之DGS外罩,更包含:一顯示器連接器,用以耦合至一顯示器並致能該GPU執行來自該電腦系統之該3D圖形指令以驅動該顯示器。 The DGS cover of claim 34, further comprising: a display connector for coupling to a display and enabling the GPU to execute the 3D graphics command from the computer system to drive the display. 如申請專利範圍第34項所述之DGS外罩,其中該GPU安裝單元係用以接收複數個GPU並將該GPU耦合至該序列匯流排連接器而致能該GPU協同地執行來自該電腦系統之該3D圖形指令。 The DGS enclosure of claim 34, wherein the GPU installation unit is configured to receive a plurality of GPUs and couple the GPU to the serial busbar connector to enable the GPU to cooperatively execute from the computer system The 3D graphics instructions. 一種分離式圖形系統(DGS)單元,包含:一系統機架,用以容置一GPU,該GPU用於執行3D圖形指令;一GPU連接器,耦合至該系統機架並用以可移除式地接收該GPU;一PCI Express連接器,耦合至該機架並耦合至該GPU連接器,其中該PCI Express連接器係用以可移除式地將該GPU連接至一電腦系統以致能該GPU 透過該序列匯流排連接器存取該電腦系統並執行針對該電腦系統之該3D圖形指令,且其中該PCI Express連接器可操作以熱插拔該GPU至該電腦系統,且其中該PCI Express連接器可操作以致能該GPU經由該電腦系統之一PCI Express匯流排而通訊;一電源供應器,耦合至該系統機架以供應電源給獨立於該電腦系統之該GPU;一熱散逸單元,耦合至該機架以冷卻該GPU,其中該冷卻係獨立於該電腦系統而被提供;以及一GPU安裝單元,用以接收複數個GPU並將該GPU耦合至該PCI Express連接器以致能該GPU協同地執行來自該電腦系統之該3D圖形指令。 A separate graphics system (DGS) unit includes: a system rack for accommodating a GPU for executing 3D graphics instructions; a GPU connector coupled to the system rack and for removable Receiving the GPU; a PCI Express connector coupled to the chassis and coupled to the GPU connector, wherein the PCI Express connector is configured to removably connect the GPU to a computer system to enable the GPU Accessing the computer system through the serial bus connector and executing the 3D graphics command for the computer system, and wherein the PCI Express connector is operable to hot plug the GPU to the computer system, and wherein the PCI Express connection The device is operable to enable the GPU to communicate via a PCI Express bus of the computer system; a power supply coupled to the system rack to supply power to the GPU independent of the computer system; a heat dissipation unit coupled Up to the rack to cool the GPU, wherein the cooling is provided independently of the computer system; and a GPU mounting unit for receiving a plurality of GPUs and coupling the GPU to the PCI Express connector to enable the GPU to cooperate The 3D graphics instructions from the computer system are executed. 如申請專利範圍第42項所述之DGS單元,更包含一音量(acoustic)管理系統,用以控制該熱散逸單元以及該電源供應器以限制由該DGS單元所產生的噪音。 The DGS unit of claim 42, further comprising an acoustic management system for controlling the heat dissipation unit and the power supply to limit noise generated by the DGS unit. 一種可比例縮放(scalable)分離式圖形系統,包含:一序列匯流排橋接器,用以耦合複數個GPU至一序列匯流排;一序列匯流排連接器,耦合至該序列匯流排橋接器;以及一系統機架,耦合至該序列匯流排橋接器以及該 序列匯流排連接器並用以容置該GPU,其中該序列匯流排連接器係用以可移除式地連接至一電腦系統,且其中該GPU透過該序列匯流排橋接器以及該序列匯流排連接器存取該電腦系統,以協同地執行來自該電腦系統的3D圖形指令,且其中該GPU可操作以與該電腦系統之一GPU協同地執行3D圖形指令,且其中由容置於該系統機架中之該GPU所執行之該3D圖形指令的執行結果係傳回至該電腦系統。 A scalable separate graphics system comprising: a sequence of bus bridges for coupling a plurality of GPUs to a sequence of busses; a sequence of busbar connectors coupled to the sequence of bus bars; a system rack coupled to the sequence bus bridge and the a serial bus connector for accommodating the GPU, wherein the serial bus connector is for removably connecting to a computer system, and wherein the GPU is connected to the serial bus and the serial bus Accessing the computer system to cooperatively execute 3D graphics instructions from the computer system, and wherein the GPU is operative to perform 3D graphics instructions in cooperation with a GPU of the computer system, and wherein the system is hosted by the system The execution result of the 3D graphics instruction executed by the GPU in the shelf is transmitted back to the computer system. 如申請專利範圍第44項所述之可比例縮放分離式圖形系統,其中該序列匯流排橋接器係用以透過一PCI Express匯流排連接至該電腦系統、以及透過該PCI Express匯流排連接複數個GPU之每一者至該電腦系統。 The scalable horizontal graphics system of claim 44, wherein the serial bus bridge is connected to the computer system through a PCI Express bus and connected to the plurality of PCI Express bus bars. Each of the GPUs to the computer system. 如申請專利範圍第45項所述之可比例縮放分離式圖形系統,其中介於該序列匯流排橋接器及該電腦系統之間的該PCI Express匯流排為至少一16通道的PCI Express匯流排連接。 The scalable split graphics system of claim 45, wherein the PCI Express bus between the serial bus bridge and the computer system is at least one 16-channel PCI Express bus connection. . 如申請專利範圍第45項所述之可比例縮放分離式圖形系統,其中該序列匯流排橋接器透過至少一16通道的PCI Express匯流排連接而耦合至複數個GPU之每一者。 The scalable split graphics system of claim 45, wherein the serial bus bridge is coupled to each of the plurality of GPUs via at least one 16-channel PCI Express bus connection. 如申請專利範圍第44項所述之可比例縮放分離式圖形系統,其中該序列匯流排橋接器係用以藉由耦合至少一新GPU以及已耦合至該序列匯流排橋接器之至少一既有GPU而致能該電腦系統之一3D演算效能向上提昇,其中該新GPU以及該既有GPU係協同地執行來自該電腦系統之圖形指令。 The scalable horizontal graphics system of claim 44, wherein the serial bus bridge is configured to couple at least one new GPU and at least one of the coupled bus bridges The GPU enables one of the computer systems to improve in 3D calculus performance, wherein the new GPU and the existing GPU cooperatively execute graphics commands from the computer system. 如申請專利範圍第48項所述之可比例縮放分離式圖形系統,其中該新GPU以及該既有GPU為插卡安裝式GPU。 The scalable detachable graphics system of claim 48, wherein the new GPU and the existing GPU are card-mounted GPUs. 如申請專利範圍第44項所述之可比例縮放分離式圖形系統,其中該GPU係用以執行針對該電腦系統之該3D圖形指令,以驅動耦合至該電腦系統的一顯示器。 A scalable, discrete graphics system as described in claim 44, wherein the GPU is operative to execute the 3D graphics instructions for the computer system to drive a display coupled to the computer system. 如申請專利範圍第44項所述之可比例縮放分離式圖形系統,更包含:一電源供應器,耦合至該系統機架以提供電源至獨立於該電腦系統之該GPU。 The scalable and discrete graphics system of claim 44, further comprising: a power supply coupled to the system chassis to provide power to the GPU independent of the computer system. 如申請專利範圍第44項所述之可比例縮放分離式圖形系統,其中該可比例縮放分離式圖形系統耦合至一手持裝置。 The scalable split graphics system of claim 44, wherein the scalable split graphics system is coupled to a handheld device. 一種用於一可比例縮放分離式圖形系統的方法,包含:藉由使用一序列匯流排橋接器透過一序列匯流排存取複數個GPU;存取耦合該序列匯流排橋接器的一序列匯流排連接器;以及協同地執行來自一電腦系統之3D圖形指令,其中該GPU透過該序列匯流排橋接器及該序列匯流排連接器而存取該電腦系統,且其中該序列匯流排連接器係用以可移除式地連接至該電腦系統,其中該GPU係容置於一系統機架中且該GPU可操作以與該電腦系統之一GPU協同地執行3D圖形指令,且其中該3D圖形指令之執行的結果係傳回至該電腦系統。 A method for a scalable split graphics system, comprising: accessing a plurality of GPUs through a sequence of busbars by using a sequence of busbars; accessing a sequence of busbars coupled to the sequence of busbar bridges a connector; and cooperatively executing 3D graphics instructions from a computer system, wherein the GPU accesses the computer system through the serial bus bridge and the serial bus connector, and wherein the serial bus connector is used Removably coupled to the computer system, wherein the GPU is housed in a system rack and the GPU is operative to perform 3D graphics instructions in cooperation with a GPU of the computer system, and wherein the 3D graphics instructions The results of the execution are passed back to the computer system. 如申請專利範圍第53項所述之方法,其中該序列匯流排橋接器係用以透過一PCI Express匯流排而連接該電腦系統、且透過該PCI Express匯流排而連接該複數個GPU之每一者至該電腦系統。 The method of claim 53, wherein the serial bus bridge is connected to the computer system through a PCI Express bus and connected to each of the plurality of GPUs through the PCI Express bus. To the computer system. 如申請專利範圍第54項所述之方法,其中介於該序列匯流排橋接器及該電腦系統之間的該PCI Express匯流排為至少一16通道的PCI Express匯流排連接。 The method of claim 54, wherein the PCI Express bus between the sequence bus bridge and the computer system is connected to at least one 16-channel PCI Express bus. 如申請專利範圍第54項所述之方法,其中該序列匯流 排橋接器透過至少一16通道的PCI Express匯流排連接而耦合至該複數個GPU之每一者。 The method of claim 54, wherein the sequence is confluent The row bridge is coupled to each of the plurality of GPUs via at least one 16 channel PCI Express bus connection. 如申請專利範圍第53項所述之比例縮放分離式圖形系統,其中該序列匯流排橋接器係用以藉由耦合至少一新GPU以及已耦合至該序列匯流排橋接器之至少一既有GPU而致能該電腦系統之一3D演算效能向上提昇,其中該新GPU以及該既有GPU係協同地執行來自該電腦系統之圖形指令。 The scaled split graphics system of claim 53, wherein the serial bus bridge is configured to couple at least one new GPU and at least one existing GPU coupled to the serial bus bridge And enabling one of the computer systems to improve the 3D calculus performance, wherein the new GPU and the existing GPU cooperatively execute graphics commands from the computer system. 如申請專利範圍第57項所述之方法,其中該新GPU以及該既有GPU為插卡安裝式GPU。 The method of claim 57, wherein the new GPU and the existing GPU are card-mounted GPUs. 如申請專利範圍第53項所述之方法,其中該GPU係用以執行針對該電腦系統之該3D圖形指令,以驅動耦合至該電腦系統的一顯示器。 The method of claim 53, wherein the GPU is configured to execute the 3D graphics instructions for the computer system to drive a display coupled to the computer system. 如申請專利範圍第53項所述之方法,更包含:藉由使用耦合至該系統機架的一電源供應器以提供電源至獨立於該電腦系統之該GPU。 The method of claim 53, further comprising: providing power to the GPU independent of the computer system by using a power supply coupled to the system rack. 一種用於實施可比例縮放分離式圖形的系統,包含:一電腦系統; 一PCI Express橋接器,用以耦合複數個GPU至一PCI Express匯流排;一PCI Express連接器,耦合至該PCI Express橋接器;以及一系統機架,耦合至該PCI Express橋接器以及該PCI Express連接器且用以容置該GPU,其中該PCI Express連接器係用以可移除式地連接至該電腦系統,且其中該GPU透過該PCI Express橋接器以及該PCI Express連接器存取該電腦系統以協同地執行來自該電腦系統之3D圖形指令,且其中由容置於該系統機架中之該GPU所執行之該3D圖形指令的執行結果係傳回至該電腦系統。 A system for implementing scalable scaleable graphics, comprising: a computer system; a PCI Express bridge for coupling a plurality of GPUs to a PCI Express bus; a PCI Express connector coupled to the PCI Express bridge; and a system rack coupled to the PCI Express bridge and the PCI Express a connector for accommodating the GPU, wherein the PCI Express connector is for removably connecting to the computer system, and wherein the GPU accesses the computer through the PCI Express bridge and the PCI Express connector The system cooperatively executes 3D graphics instructions from the computer system, and wherein the results of execution of the 3D graphics instructions executed by the GPU housed in the system rack are transmitted back to the computer system. 如申請專利範圍第61項所述之系統,其中該PCI Express橋接器係用以透過一PCI Express匯流排而連接該電腦系統、且透過該PCI Express匯流排而連接該複數個GPU之每一者至該電腦系統。 The system of claim 61, wherein the PCI Express bridge is configured to connect to the computer system through a PCI Express bus and connect each of the plurality of GPUs through the PCI Express bus. To the computer system. 如申請專利範圍第61項所述之系統,其中該PCI Express橋接器係用以藉由耦合至少一新GPU以及已耦合至該PCI Express橋接器之至少一既有GPU而致能該電腦系統之一3D演算效能向上提昇(upward scaling),其中該新GPU以及該既有GPU係協同地執行來自該電腦系統之 圖形指令。 The system of claim 61, wherein the PCI Express bridge is configured to enable the computer system by coupling at least one new GPU and at least one existing GPU coupled to the PCI Express bridge. A 3D calculus performance upward scaling, wherein the new GPU and the existing GPU are cooperatively executed from the computer system Graphical instructions. 如申請專利範圍第61項所述之系統,更包含:一電源供應器,耦合至該系統機架以提供電源至獨立於該電腦系統之該GPU。 The system of claim 61, further comprising: a power supply coupled to the system rack to provide power to the GPU independent of the computer system. 如申請專利範圍第61項所述之系統,其中該PCI Express橋接器允許該GPU動態地耦合至該電腦系統。 The system of claim 61, wherein the PCI Express bridge allows the GPU to be dynamically coupled to the computer system. 如申請專利範圍第61項所述之系統,其中該GPU係實施為多GPU圖形卡。The system of claim 61, wherein the GPU is implemented as a multi-GPU graphics card.
TW94121285A 2004-06-25 2005-06-24 Discrete graphics system, computer system for discrete graphics system, dgs unit, dgs housing, and method thereof TWI402764B (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
US10/877,723 US8941668B2 (en) 2004-06-25 2004-06-25 Method and system for a scalable discrete graphics system
US10/877,724 US8446417B2 (en) 2004-06-25 2004-06-25 Discrete graphics system unit for housing a GPU
US10/877,642 US8411093B2 (en) 2004-06-25 2004-06-25 Method and system for stand alone graphics independent of computer system form factor

Publications (2)

Publication Number Publication Date
TW200606751A TW200606751A (en) 2006-02-16
TWI402764B true TWI402764B (en) 2013-07-21

Family

ID=35783292

Family Applications (1)

Application Number Title Priority Date Filing Date
TW94121285A TWI402764B (en) 2004-06-25 2005-06-24 Discrete graphics system, computer system for discrete graphics system, dgs unit, dgs housing, and method thereof

Country Status (4)

Country Link
EP (1) EP1763767A4 (en)
JP (1) JP4912299B2 (en)
TW (1) TWI402764B (en)
WO (1) WO2006004682A2 (en)

Families Citing this family (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7535433B2 (en) * 2006-05-18 2009-05-19 Nvidia Corporation Dynamic multiple display configuration
US8560755B2 (en) * 2006-09-07 2013-10-15 Toshiba Global Commerce Solutions Holding Corporation PCI-E based POS terminal
US8823723B2 (en) 2008-08-07 2014-09-02 Mitsubishi Electric Corporation Semiconductor integrated circuit device, facility appliance control device, and appliance state display apparatus
US8508538B2 (en) * 2008-12-31 2013-08-13 Apple Inc. Timing controller capable of switching between graphics processing units
US20140028689A1 (en) * 2011-12-16 2014-01-30 Sing Hook Arther Teng Method, apparatus, and system for expanding graphical processing via an external display-data i/o port
CN109840876B (en) * 2017-11-24 2023-04-18 成都海存艾匹科技有限公司 Graphic memory with rendering function

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20020097220A1 (en) * 2002-03-28 2002-07-25 Compaq Information Technologies Group, L.P. Method of supporting audio for KVM extension in a server platform
US6570571B1 (en) * 1999-01-27 2003-05-27 Nec Corporation Image processing apparatus and method for efficient distribution of image processing to plurality of graphics processors
US20040085726A1 (en) * 2002-10-31 2004-05-06 Yi-Chun Ting Upgrading apparatus for portable computer

Family Cites Families (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4870406A (en) * 1987-02-12 1989-09-26 International Business Machines Corporation High resolution graphics display adapter
JPH03160495A (en) * 1989-11-17 1991-07-10 Fuji Xerox Co Ltd Image display device
US6075929A (en) * 1996-06-05 2000-06-13 Compaq Computer Corporation Prefetching data in response to a read transaction for which the requesting device relinquishes control of the data bus while awaiting data requested in the transaction
US6167476A (en) * 1998-09-24 2000-12-26 Compaq Computer Corporation Apparatus, method and system for accelerated graphics port bus bridges
JP2000124646A (en) * 1998-10-15 2000-04-28 Pfu Ltd Cooling structure for printed circuit board
JP2001005574A (en) * 1999-06-22 2001-01-12 Toshiba Corp Computer system
JP2001290754A (en) * 2000-04-05 2001-10-19 Nec Corp Computer system
JP2002032324A (en) * 2000-07-17 2002-01-31 Hitachi Ltd System for controlling pci bus device connection
US6778390B2 (en) * 2001-05-15 2004-08-17 Nvidia Corporation High-performance heat sink for printed circuit boards
US6832269B2 (en) * 2002-01-04 2004-12-14 Silicon Integrated Systems Corp. Apparatus and method for supporting multiple graphics adapters in a computer system
US20040012600A1 (en) * 2002-03-22 2004-01-22 Deering Michael F. Scalable high performance 3d graphics
WO2003100588A1 (en) * 2002-05-20 2003-12-04 Sun Microsystems, Inc. Modular computer system and method
US20050190536A1 (en) * 2004-02-26 2005-09-01 Microsoft Corporation Method for expanding PC functionality while maintaining reliability and stability

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6570571B1 (en) * 1999-01-27 2003-05-27 Nec Corporation Image processing apparatus and method for efficient distribution of image processing to plurality of graphics processors
US20020097220A1 (en) * 2002-03-28 2002-07-25 Compaq Information Technologies Group, L.P. Method of supporting audio for KVM extension in a server platform
US20040085726A1 (en) * 2002-10-31 2004-05-06 Yi-Chun Ting Upgrading apparatus for portable computer

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
http://forum.beyond3d.com/archive/index.php/t-11226.html, 2004/06/03。 *

Also Published As

Publication number Publication date
JP2008504611A (en) 2008-02-14
EP1763767A4 (en) 2008-07-02
WO2006004682A2 (en) 2006-01-12
TW200606751A (en) 2006-02-16
JP4912299B2 (en) 2012-04-11
EP1763767A2 (en) 2007-03-21
WO2006004682A3 (en) 2006-08-03

Similar Documents

Publication Publication Date Title
US8446417B2 (en) Discrete graphics system unit for housing a GPU
US7663633B1 (en) Multiple GPU graphics system for implementing cooperative graphics instruction execution
US8941668B2 (en) Method and system for a scalable discrete graphics system
US10289584B2 (en) Using a standard USB Type-C connector to communicate both USB 3.x and displayport data
TWI387885B (en) Computer system, graphics processing unit and computer core logic controller having point-to-point bus bridging without a bridge controller
US8319782B2 (en) Systems and methods for providing scalable parallel graphics rendering capability for information handling systems
CN104375796B (en) Display methods, electronic installation and electronic system
US7372465B1 (en) Scalable graphics processing for remote display
EP2446353B1 (en) Virtual graphics device driver
US20140028689A1 (en) Method, apparatus, and system for expanding graphical processing via an external display-data i/o port
US9087161B1 (en) Asymmetrical scaling multiple GPU graphics system for implementing cooperative graphics instruction execution
TWI402764B (en) Discrete graphics system, computer system for discrete graphics system, dgs unit, dgs housing, and method thereof
CN208061071U (en) A kind of computer with integrated equipment mainboard module for supporting KVM functions
US8411093B2 (en) Method and system for stand alone graphics independent of computer system form factor
CN102681812B (en) Computer multiscreen expanded display method and device
US9250683B2 (en) System, method, and computer program product for allowing a head to enter a reduced power mode
CN105785931B (en) A kind of digital equipment industrial control platform
KR100370965B1 (en) Cell server of a hot-swap type
KR102205345B1 (en) Display apparatus with graphic card
US20220148489A1 (en) A display device
KR20110003079A (en) Display apparatus and graphic display method
KR200249797Y1 (en) Cell server of a hot-swap type
JP2006323754A (en) Display device and method of multi-display card
TW201430570A (en) An electrical system