Abit IT7-MAX2 User Manual

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If you do not properly set the motherboard settings, causing the motherboard to malfunction or fail, we cannot guarantee any responsibility.
IT7-MAX2 Motherboard
User’s Manual
Index
IT7-MAX2 快速安裝指引....................................................................................1
IT7-MAX2 クイックインストールガイド .......................................................5
IT7-MAX2 Schnellinstallationsanleitung ..........................................................9
IT7-MAX2 Guide d’Installation Rapide.......................................................... 13
Краткое руководство по установке IT7-MAX2...........................................17
Guida all’installazione veloce Scheda madre IT7-MAX2 .............................. 21
CHAPTER 1.
1-1. FEATURES AND SPECIFICATIONS ..............................................................1-1
1-2. LAYOUT DIAGRAM ...................................................................................1-3
CHAPTER 2.
2-1. INSTALL THE MOTHERBOARD ..................................................................2-1
2-2. INSTALL PENTIUM
2-3. INSTALL SYSTEM MEMORY ......................................................................2-3
2-4. CONNECTORS, HEADERS AND SWITCHES .................................................2-4
CHAPTER 3.
3-1. CPU SETUP [SOFTMENU
3-2. STANDARD CMOS FEATURES SETUP MENU............................................3-5
3-3. ADVANCED BIOS FEATURES SETUP MENU .............................................3-8
3-4. ADVANCED CHIPSET FEATURES SETUP MENU .......................................3-11
3-5. INTEGRATED PERIPHERALS ....................................................................3-13
3-6. POWER MANAGEMENT SETUP MENU .....................................................3-16
3-7. PNP/PCI CONFIGURATIONS....................................................................3-20
3-8. PC HEALTH STATUS...............................................................................3-23
3-9. LOAD FAIL-SAFE DEFAULTS ..................................................................3-24
3-10. LOAD OPTIMIZED DEFAULTS..................................................................3-24
3-11. SET PASSWORD.......................................................................................3-25
3-12. SAVE & EXIT SETUP...............................................................................3-26
3-13. EXIT WITHOUT SAVING..........................................................................3-26
INTRODUCTION...................................................................1-1
HARDWARE SETUP ............................................................2-1
®
4 CPU AND HEATSINK SUPPORTING-BASE ..............2-2
BIOS SETUP ...........................................................................3-1
III] .................................................................3-2
4200-0309-02 Rev. 1.00
CHAPTER 4.
4-1. DRIVER INSTALLATION ............................................................................4-1
4-2. RAID MANAGEMENT............................................................................... 4-2
4-3. BIOS SETUP FOR RAID ...........................................................................4-4
4-4. BIOS SETTING UTILITY ...........................................................................4-5
APPENDIX A. INSTALL INTEL CHIPSET DRIVER.................................. A-1
APPENDIX B. INSTALL INTEL APPLICATION ACCELERATOR.......... B-1
APPENDIX C. INSTALL AUDIO DRIVER...................................................C-1
APPENDIX D. INSTALL VIA USB 2.0 DRIVER ..........................................D-1
APPENDIX E. INSTALL LAN DRIVER........................................................ E-1
APPENDIX F. BIOS UPDATE GUIDE .........................................................F-1
APPENDIX G. HARDWARE MONITORING (THE WINBOND
APPENDIX H. INSTALLATION GUIDE FOR SUSPEND TO RAM..........H-1
APPENDIX I.
HPT 374 RAID SETUP .......................................................... 4-1
HARDWARE DOCTOR UTILITY) .......................................G-1
TROUBLESHOOTING (NEED ASSISTANCE?)................. I-1
APPENDIX J. HOW TO GET TECHNICAL SUPPORT ..............................J-1
IT7-MAX2
IT7-MAX2
快速安裝指引
1
IT7-MAX2
感謝您購買 ABIT 的主機板,此主機板是設計給 Intel Socket 478 Pentium 4 處理器使用。支援 Intel Socket-478 架構的處理器,並支援最高至 2GB 容量的 DDR 記憶體模組。
如您要瞭解此主機板更詳細的資訊,請參閱我們的完整版使用手冊,裡面會有詳盡的說明。此快速 安裝手冊是給有經驗的系統組裝者使用,如果這是您第㆒次嘗試來組裝您的電腦系統,我們建議您 先去閱讀完整版的使用手冊,或是詢問技術㆟員來幫助您組裝您的電腦系統。
IT7-MAX2 主機板主要元件配置圖
快速安裝指引
使用手冊
2 IT7-MAX2
快速安裝指引
處理器的安裝
若您置入處理器的方向不對,您將無法輕易
㆞將處理器插入 Socket 478 插座,而且處理器
的針腳將無法完全進入腳座。如果發現有這
種現象時,請您改變處理器的方向,直到它
能輕易且完全插入 Socket 478。同時您必需檢
視處理器溫度偵測熱敏電阻的高度(如果有
的話),然後再小心的將 Intel Pentium 4 處理
器安裝到 Socket 478 腳座㆖去。
安裝散熱器與散熱風扇是必需的,那樣可以
讓您的處理器適當㆞散熱。未安裝這些散熱
裝置可能導致處理器過熱並且會損壞您的處
理器。Intel Socket 478 處理器在運作時會產生
大量的熱量,所以您需要使用專門為 Intel
Socket 478 處理器設計的大型散熱風扇。否
則,可能導致過熱且會損壞您的處理器。處
理器風扇未裝置妥當並且風扇電源線尚未連
接妥當之前,請不要把ATX 電源供應器的電
源纜線接到主機板㆖。如此將可避免㆒些潛
在損壞處理器的可能性。
IT7-MAX2
IT7-MAX2
快速安裝指引
3
將主機板安裝到機殼㆖
當您將處理器安裝到主機板㆖之後,您便可以開始將主機板固定到電腦機殼裡去。首先;請您先將
主機板固定到電腦機殼。大多數的電腦機殼底座都有許多的固定孔位,請將主機板㆖的固定孔位與
機殼底座㆖的固定孔位對準。如果孔能對準並且有螺絲孔,就表示可使用銅來固定主機板。另外;
您可以使用塑膠墊片來讓螺絲與主機板的 PCB 層隔離絕緣)。
安裝系統記憶體
主機板3 184 腳的 DDR DIMM 插座可供記憶體擴充,可支援 DDR SDRAM 的最小記憶
體大小為 64MB,而最大的記憶體大小則為 2GB
DDR DIMM 記憶體模組插入 DIMM
。請注意記憶體模組的楔子是如對應到
DIMM ㆖的卡榫之㆖。此種設計可確保
DDR DIMM 記憶體模組方向插到
DIMM 之㆖。當您將DDR DIMM 記憶體
模組完全插入 DIMM 時,模組退出(固
定)夾應該會將 DDR DIMM 記憶體模組自兩側卡緊緊緊㆞固定記憶體模組。請
DIMM1~DIMM3 順序來安裝記憶體模組。
最後;您必需將所有必需的裝置纜線連接到主機板㆖相關的連接頭或是連接器㆖面,以完您系統
體安裝作。
連接器連接頭以及附加卡的安裝
任何電腦機殼的裡面,都必需連接㆒些纜線與插頭。這些纜線與插頭通常都是㆒對㆒的連接
至主機板的連接㆖,您必需注意任何纜線的連接方向。如果可能的話,請㆒併注意連接
針腳的位置。您將會安裝㆒些特殊功能的附加卡到主機板㆖面,SCSI 或是 AGP
卡等等。當您將它們安裝到主機板㆖適當的插之後,請以螺絲將這些附加卡與機殼牢牢㆞固
,避免有鬆動情況發生。
如您要瞭解相關且更為詳細的資訊,請參閱我們的完整版使用手冊,裡面會有詳盡的說明。
使用手冊
4 IT7-MAX2
快速安裝指引
將電源供應器的電源線連接與主機板㆖的 ATX1/ATXPR1 連接連接起來
請將電源供應器的 ATX 電源接頭確實入主機板㆖
ATX1/ATXPR1 ,並定連接妥當。
註:注意針腳的位置方向。
處理器參數的設定
當您將所有的體安裝完以後,就可以開電腦的電源並進入 BIOS 選項。如您要瞭解相關
且更為詳細的資訊,請參閱我們的完整版使用手冊,裡面會有詳盡的說明。
IT7-MAX2
IT7-MAX2
クイックインストールガイド
5
IT7-MAX2 クイックインストールガイド
ABIT マザーボードをお買い上げいただきましてありがとうございます。このマザーボードは Intel Socket 478 Pentium 4 プロセッサ用に設計されています。最高 2GB の DDR メモリを搭載し
Intel Socket-478 構造をサポートします。
このマザーボードの詳細については、ユーザーズマニュアルの完全版を参照してください。この クイックインストールガイドは、経験あるシステム構築者向けに書かれました。今回始めてコン ピュータシステムをセットアップする方は、まず完全版のマニュアルをお読みになるか、専門技 術者に連絡してコンピュータシステムのセットアップを行うようお勧めします。レバー
IT7-MAX2 マザーボードの配置
ユーザーマニュアル
6 IT7-MAX2
クイックインストールガイド
プロセッサの取り付け
方向を間違えて差し込むと、プロセッサは
スムーズに入っていかず、途中で止まって
しまいます。この場合、向きを変えると、
Socket 478 に完全に差し込まれます。同時に、
プロセッサの温度検出サーミスタの高さも
チェックしてください(マザーボードにこ
のコンポーネントが搭載されている場合)。
その後で、プロセッサを Socket 478 にゆっく
り差し込むことができます。
ヒートシンクと冷却ファンの取り付けは、
コンピュータから熱を分散させるために必
要となります。これらのアイテムを取り付
けないと、過熱してプロセッサが破損する
原因となります。Intel Socket 478 プロセッサ
は動作中に高熱を発生するため、Intel Socket
478 プロセッサ用に特別に設計された大き
なヒートシンクが必要となります。そうで
ないと、過熱してプロセッサが破損するこ
ともあります。プロセッサファンとその電
源ケーブルを正しく取り付けるまでは、
ATX 電源ケーブルをマザーボードに決して
差し込まないでください。これにより、プ
ロセッサの破損を避けることができます。
IT7-MAX2
IT7-MAX2
クイックインストールガイド
7
マザーボードをシャーシに取り付ける
マザーボードにプロセッサを取り付けた後、シャーシにマザーボードを固定することができるよ うになります。まず、シャーシにマザーボードを固定する必要があります。ほとんどのコンピュ ータシャーシには、多くの取り付け穴の付いた台が付属しており、それを使用することでマザー ボードをしっかり取り付けたり、同時にショートを避けることができます。シャーシに付属する 飾りボタンかスペーサーを使用してマザーボードを固定します。
システムメモリの取り付け
このマザーボードでは、3 つの 184 ピン DDR DIMM スロットメモリ拡張を提供します。最小メ モリは 64 MB で、最大メモリは 2GB DDR SDRAM です。
DDR DIMM を図に示すように拡張スロット に差し込みます。モジュールがソケットに どのように固定されているか注意してくだ さい。これにより、DDR DIMM モジュール に差し込む方法が 1 つしかないことを確認 できます。DDR DIMM モジュールを DDR DIMM ソケットにしっかりと押し込み、モジュールが DDR DIMM ソケットに完全に差し込まれ ていることを確認します。
これらのモジュールに対して、DIMM1 から DIMM3 まで順に差し込むようにお勧めします。
次に、すべての必要なデバイスケーブルをマザーボードの関連ヘッダとコネクタに接続して、シ ステムのハードウェア取付けを終了する必要があります。
コネクタ、ヘッダ、スイッチおよびアダプタ
コンピュータのケース内部には、複数のケーブルやプラを接続できます。これらのケーブルや プラは、通常マザーボードにあるコネクタに 1 つずつ接続されます。ケーブルの接続方向には
分な注意をい、また必要に応じ、コネクタの1 ピンの置にも注する必要があります。 SCSI アダプタ、AGP アダプタのような特なニーズ向けには、それに対したアダプタを取り
付けてください。アダプタをマザーボードのスロットに取り付けたら、ネジでシャーシの背面パ ネルに固定してください。
詳細については、ユーザーズマニュアルの完全版を参照してください。
ユーザーマニュアル
8 IT7-MAX2
クイックインストールガイド
電源コネクタを ATX1/ATXPR1 コネクタに差し込む
電源置から出ている電源ブロックコネクタをこの
ATX1/ATXPR1 に接続します。コネクタが十まで 装着されていることをご確認ください。
注意ピンの置と方向をく確認してください。
BIOS のセットアップ
ハードウェアの取り付けが完了したら、コンピュータの電源をンにし、BIOS Setup アイテム に動して、プロセッサのラメータをセットアップします。詳細については、ユーザーズマニ ュアルの完全版を参照してください。
IT7-MAX2
IT7-MAX2 Schnellinstallationsanleitung 9
IT7-MAX2 Schnellinstallationsanleitung
Vielen Dank für Ihren Kauf der ABIT-Hauptplatine. Diese Hauptplatine wurde für Intel Socket 478 Pentium 4 Prozessore ausgelegt. Sie unterstützt die Intel Socket-478-Struktur und DDR-Speichersteckplätze mit der Kapazität von bis zu 2 GB RAM.
Beziehen Sie sich bitte für detaillierte Informationen über diese Hauptplatine auf die vollständige Version des Benutzerbuchs. Diese Schnellinstallationsanleitung ist für erfahrene Systemaufbauer gedacht. Ist es Ihr erster Versuch ein Computersystem aufzubauen, dann empfehlen wir Ihnen zuerst das vollständige Benutzerhandbuch zu lesen oder einen Techniker zum Aufbauen des Systems zu Hilfe zu holen.
Layout der IT7-MAX2 Hauptplatine
Handbuch
10 IT7-MAX2 Schnellinstallationsanleitung
Installieren des Prozessors
Wenn Sie beim Einstecken des Prozessors eine falsche Richtung gewählt haben, kann der Prozessor nicht leicht und komplett eingesteckt werden. Ändern Sie bitte in diesem Fall die Richtung, bis der Prozessor sich leicht und komplett in den Socket 478 einpassen lässt. Überprüfen Sie gleichzeitig die Höhe des Prozessortemperaturerkennungsthermistors (falls Ihre Hauptplatine diese Komponente besitzt). Wenn alles in Ordnung ist, stecken Sie bitte den Prozessor langsam in den Socket 478 ein.
Ein Kühlkörper und Lüfter ist erforderlich, um die Hitze des Prozessors zu vertreiben. Wurden die zwei Vorrichtungen nicht installiert, kann eine Überhitzung und ein Schaden am Prozessor entstehen. Ein Intel Socket 478 Prozessor erzeugt viel Hitze. Deshalb müssen Sie einen speziell für einen Intel Socket 478 Prozessor ausgelegten großen Kühlkörper verwenden. Ansonsten ist eine Überhitzung und ein Schaden am Prozessor möglich. Verbinden Sie niemals das ATX-Netzkabel mit der Hauptplatine, bevor der Prozessorlüfter installiert wurde und sein Netzkabel richtig angeschlossen wurde. Dies kann mögliche Schäden am Prozessor vermeiden.
IT7-MAX2
IT7-MAX2 Schnellinstallationsanleitung 11
Installieren der Hauptplatine im Gehäuse
Nach der Installation des Prozessors können Sie anfangen die Hauptplatine im Computergehäuse zu befestigen. Die meisten Gehäuse haben eine Bodenplatte, auf der sich eine Reihe von Befestigungslöcher befinden, mit deren Hilfe Sie die Hauptplatine sicher verankern können und zugleich Kurzschlüsse verhindern. Verwenden Sie entweder die Dübeln oder die Abstandhalter, um die Hauptplatine auf der Bodenplatte des Gehäuses zu befestigen.
Installieren des Arbeitsspeichers
Diese Hauptplatine bietet 3 184-polige DDR DIMM-Steckplätze an. Sie können minimal 64 MB und maximal 2 GB DDR SDRAM einbauen.
Stecken Sie das DDR DIMM-Modul in den Speichersteckplatz ein, wie in der Abbildung dargestellt. Achten Sie darauf, wie die Kerbe des Moduls in den Steckplatz passt. So ist sichergestellt, dass das DDR DIMM-Modul nur in eine Richtung in den Steckplatz eingesteckt werden kann. Drücken Sie das DDR DIMM-Modul fest in den DDR DIMM-Steckplatz, bis es komplett und fest darin sitzt.
Für solche Module, empfehlen wir Ihnen die Bestückung von DIMM1 zu DIMM3 (in dieser Reihenfolge).
Danach müssen Sie alle nötigen Gerätekabel mit den entsprechenden Sockeln und Anschlüssen auf der Hauptplatine verbinden, um die Hardwareinstallation Ihres Systems zu vervollständigen.
Anschlüsse, Sockel, Schalter und Adapter
Im Inneren des Gehäuses findet man in jedem Computer viele Kabel und Stecker, die angeschlossen werden müssen. Diese Kabel und Stecker werden normalerweise einzeln mit den Anschlüssen auf der Hauptplatine verbunden. Sie müssen genau auf die Anschlussorientierung der Kabel achten und, wenn vorhanden, sich die Position des ersten Pols des Anschlusses merken. Wenn Sie Adapter wie z.B. SCSI-Adapter, AGP-Adapter usw. installieren, befestigen Sie bitte die Adapter immer mit Hilfe der Schrauben auf die Rückseite des Computergehäuses.
Für detaillierte Informationen beziehen Sie sich bitte auf das vollständige Benutzerhandbuch.
Handbuch
12 IT7-MAX2 Schnellinstallationsanleitung
Verbinden der Netzstecker mit dem ATX11/ATXPR1-Anschluss
Denken Sie daran, den Anschluss des ATX-Netzteils fest in das Ende mit dem ATX1/ATXPR1-Anschluss zu drücken, um eine feste Verbindung zu garantieren.
Hinweis: Achten Sie auf die richtige Ausrichtung und Position der Pole.
BIOS-Setup
Schalten Sie nach der vervollständigten Hardwareinstallation den Computer ein und gehen zur Option im BIOS, um die Prozessorparameter einzustellen. Für detaillierte Informationen beziehen Sie sich bitte auf das vollständige Benutzerhandbuch.
IT7-MAX2
IT7-MAX2 Guide d’Installation Rapide 13
IT7-MAX2 Guide d’Installation Rapide
Merci d’avoir acheté la carte mère ABIT. Cette carte mère est conçue pour les processeurs Intel Pentium 4 Socket 478. Elle supporte la structure Socket-478, avec jusqu’à 2 GB de mémoire DDR.
Pour des informations relatives à cette carte mère plus détaillées, veuillez vous référer à notre version complète du manuel utilisateur. Ce guide d’installation rapide est créé pour les assembleurs système expérimentés. S’il s’agit de votre premier essai pour installer un ordinateur, nous vous suggérons de lire d’abord le manuel en version complète ou de demander l’aide d’un technicien pour vous aider à configurer le système ordinateur.
Emplacement de la Carte Mère IT7-MAX2
Manuel de l’utilisateur
14 IT7-MAX2 Guide d’Installation Rapide
Installer le Processeur
La figure vous montre à quoi ressemble l’emplacement Socket 478, et comment soulever le levier. Si vous le mettez dans un mauvais sens, vous ne pourrez pas insérer le processeur facilement, et les broches du processeur n’entreront pas entièrement dans l’emplacement. Dans ce cas, veuillez changer le sens jusqu’à ce qu’il s’insère facilement et complètement dans l’emplacement Socket 478. En même temps, vérifiez le niveau de la thermistance de détection de température du processeur (si votre carte mère possède ce composant). Ensuite, vous pouvez insérer lentement le processeur dans le Socket 478.
Installer un dissipateur thermique et un ventilateur de refroidissement est nécessaire pour que la chaleur se dégage de votre processeur. Ne pas installer ces composants pourrait provoquer une surchauffe et des dommages au processeur. Le processeur Socket 478 Intel produira beaucoup de chaleur lors de son fonctionnement, donc vous aurez à utiliser un grand dissipateur thermique qui est conçu spécialement pour le processeur Socket 478 Intel. Dans le cas contraire, il pourrait provoquer une surchauffe et des dommages au processeur. Avant que le ventilateur de votre processeur et son câble d’alimentation ne soient installés correctement, ne branchez jamais le câble d’alimentation ATX sur la carte mère. Ceci peut éviter d’éventuels dommages au processeur.
IT7-MAX2
IT7-MAX2 Guide d’Installation Rapide 15
Installer la Carte Mre dans le Châssis
Une fois que vous aurez installé le processeur sur la carte mère, vous pourrez commencer à fixer la carte mère sur le châssis. Tout d’abord, vous avez besoin de fixer la carte mère sur le châssis. La plupart des châssis d’ordinateur possèdent une base sur laquelle il y a nombreux trous de montage permettant à la carte mère d’être fixée fermement, et en même temps d’éviter les court-circuits. Utilisez les talons ou les entretoises fixés sur le châssis pour fixer la carte mère.
Installer la Mémoire Système
Cette carte mère dispose de 3 emplacements DIMM DDR 184-broches pour les extensions mémoire. La mémoire minimum est de 64 MB et la mémoire maximum est de 2 GB DDR SDRAM.
Insérez le module DDR DIMM dans l’emplacement d’extension comme illustré dans le schéma. Notez comment le module est verrouillé dans l’emplacement. Ceci assure qu’il n’y qu’une manière d’insérer le module DDR DIMM. Pressez fermement le module DDR DIMM dans l’emplacement DDR DIMM; assurez-vous que le module est installé complètement dans l’emplacement DDR DIMM. Pour ces modules, nous vous suggérons de remplir de DIMM1 à DIMM3 en respectant l’ordre.
Ensuite, vous aurez à connecter les câbles de tous les périphériques nécessaires dans les socles de connexion et connecteurs correspondants se trouvant sur la carte mère pour terminer l’installation matérielle de votre système.
Connecteurs, Socles de connexion, Interrupteurs et Adaptateurs
A l’intérieur du boîtier de n’importe quel ordinateur il y a plusieurs câbles et prises qui doivent être connectés. Ces câbles et prises sont habituellement connectés les uns après les autres aux connecteurs situés sur la carte mère. Vous avez besoin de faire attention au sens de connexion des câbles et, s’il y a lieu, remarquez la position de la première broche du connecteur. Vous installerez certains adaptateurs pour des besoins spéciaux, tels adaptateurs SCSI, adaptateurs AGP, etc. Lorsque vous les installez dans les emplacements situés sur la carte mère, veuillez les fixer sur le panneau arrière du châssis à l'aide des vis.
Pour les informations détaillées, veuillez vous référer au manuel utilisateur en version complète.
Manuel de l’utilisateur
16 IT7-MAX2 Guide d’Installation Rapide
Brancher les connecteurs d'alimentation dans les connecteurs ATX1/ATXPR1
Souvenez-vous que vous devez pousser le connecteur de votre alimentation fermement dans le connecteur ATX1/ATXPR1 pour assurer une bonne connexion.
Remarque: Faites attention à la position des broches et à l'orientation.
Configuration du BIOS
Une fois le matériel installé complètement, démarrez l'ordinateur et allez sur l'item dans le BIOS pour configurer les paramètres du processeur. Pour les informations détaillées, veuillez vous référer à la version complète du manuel utilisateur.
IT7-MAX2
Краткое руководство по установке IT7-MAX2 17
Краткое руководство по установке IT7-MAX2
Благодарим вас за приобретение материнской платы производства ABIT. Эта материнская плата предназначена для использования с процессорами Intel Socket 478. Она поддерживает структуру Intel Socket 478, максимальный объем памяти DDR составляет 2 Гбайт.
Более подробные сведения о материнской плате приведены в руководстве пользователя. Краткое руководство по установке предназначено для опытных специалистов. Если вы собираете компьютер впервые, ознакомьтесь сперва с руководством пользователя или попросите техника помочь в настройке компьютерной системы.
Расположение компонентов IT7-MAX2
Руководство Пользователя
18 Краткое руководство по установке IT7-MAX2
Установка процессора
Если рычаг будет смещен не в нужную сторону, легко установить процессор не удастся, а контакты процессора не попадут в гнезда. Если так получилось, измените направление перемещения, до тех пор, пока процессор не станет на свое место в гнездо “Socket 478”.
В то же время проверьте высоту температурного датчика (если он установлен на материнской плате). Теперь можно установить процессор в гнездо “Socket 478”.
Установка радиатора и вентилятора необходима для рассеивания тепла от процессора. Неустановка радиатора и вентилятора может привести к перегреву и повреждению процессора. Процессор Intel Socket 478 сильно нагревается в процессе работы, поэтому необходимо пользоваться специальным радиатором, разработанным для процессора Intel Socket 478. В противном случае процессор может перегреться и выйти из строя. Не подключайте кабель питания ATX к материнской плате до тех пор, пока вентилятор процессора не установлен и кабель питания вентилятора процессора не подключен к материнской плате. Так можно предотвратить возможное повреждение процессора.
IT7-MAX2
Краткое руководство по установке IT7-MAX2 19
Установка материнской платы в корпус
После установки процессора на материнскую плату можно начинать установку материнской платы в корпус. Большая часть корпусов оборудована основанием, в котором проделаны монтажные отверстия, которые позволяют надежно закрепить материнскую плату и предотвратить короткие замыкания. Для крепления материнской платы к основанию используются винты и прокладки.
Установка модулей памяти
На плате имеется 3 184-контактных гнезда расширения DDR DIMM для памяти. Минимальный объем памяти равен 64 Мбайт, максимальный объем равен 2 Гбайт DDR SDRAM.
Установите модуль памяти DDR DIMM в гнездо расширения, как показано на рисунке. Обратите внимание, что модуль фиксируется в гнезде. Таким образом, гарантируется единственно возможный способ установки модуля DDR DIMM. Вставьте модуль DDR DIMM в гнездо DDR DIMM; и убедитесь, что модуль надежно установлен в гнездо DDR DIMM. Для этих модулей мы рекомендуем устанавливать память начиная с DIMM1 и далее по DIMM3.
Подключите все необходимые кабели для подключения устройств к соответствующим разъемам на материнской плате, чтобы завершить установку аппаратуры вашей системы.
Разъемы, переключатели и адаптеры
Внутри корпуса компьютера необходимо расположены несколько кабелей и вилок, которые необходимо подключить. Обычно эти кабели подключаются к разъемам, расположенным на материнской плате. При подключении любого кабеля необходимо обращать внимание на расположение первого контакта разъема. Для особых целей могут потребоваться специальные адаптеры, например, адаптер SCSI, адаптер AGP и т.п.. При установке адаптеров в гнезда материнской платы закрепите их на задней панели с помощью винтов.
За более подробной информацией обращайтесь к полному руководству пользователя.
Руководство Пользователя
20 Краткое руководство по установке IT7-MAX2
Подключение кабелей питания к разъемам ATX1/ATXPR1
Обратите внимание, разъем блока питания ATX необходимо вставить в разъем ATX1/ATXPR1 до упора, чтобы обеспечить надежное соединение.
Примечание: Обратите внимание на положение контактов и ориентацию разъема.
Настройка BIOS
По окончании установки аппаратуры включите питание и перейдите в меню BIOS Setup, чтобы настроить параметры процессора. За более подробной информацией обращайтесь к руководству пользователя.
IT7-MAX2
Guida all’installazione veloce Scheda madre IT7-MAX2 21
Guida all’installazione veloce Scheda madre IT7-MAX2
Complimenti per l’acquisto di una scheda madre ABIT. Questa scheda madre è progettata per processori Intel Pentium 4. Supporta la struttura Socket 478 con fino a 2GB di memoria DDR.
Per maggiori e dettagliate informazioni su questa scheda madre si prega di fare riferimento alla versione integrale del Manuale utente. Questa guida all’installazione veloce è intesa per costruttori esperi di sistemi. Se questa è la prima volta che si cerca di installare un sistema, si consiglia di leggere, innanzi tutto, la versione integrale del manuale oppure di chiedere aiuto ad un tecnico per l’installazione.
Disposizione scheda madre IT7-MAX2
Manuale dell'utente
22 Guida all’installazione veloce Scheda madre IT7-MAX2
Installazione del processore
Se il processore è collocato nella posizione sbagliata, non si sarà in grado di inserirlo con facilità e non si riuscirà ad inserirlo completamente nella presa. In questo caso cambiare la posizione – direzione finché il processore si inserisce completamente e con facilità nella presa Socket 478.
Allo stesso tempo controllare la condizione del termostato per il rilevamento della temperatura (se la scheda madre possiede questo elemento). Poi è possibile inserire lentamente il processore nella presa Socket 478.
L’installazione di un dispersore di calore e di una ventolina di raffreddamento è necessaria per dissipare il calore generano dal processore Diversamente si provocherà il surriscaldamento e conseguente danneggiamento del processore. I processori Intel Socket 478 producono una gran quantità di calore, è quindi necessario impiegare un dispersore di calore potente che sia progettato specialmente per processori Intel Socket 478. Diversamente si provocherà il surriscaldamento e conseguente danneggiamento del processore. Non collegare mai il cavo d’alimentazione ATX alla scheda madre prima di avere installato in modo appropriato la ventolina del processore ed il suo cavo d’alimentazione. Ciò può prevenire possibili danni al processore.
IT7-MAX2
Guida all’installazione veloce Scheda madre IT7-MAX2 23
Installazione della scheda madre sul telaio
Dopo avere installato il processore sulla scheda madre si può iniziare a fissare la scheda madre sul telaio. Innanzi tutto è necessario fissare la scheda madre al telaio. La maggior parte dei telai ha una base sulla quale sono presenti diversi fori di montaggio che permettono di fissare in modo accurato la scheda madre e, allo stesso tempo, di prevenire corto circuiti. Impiegare le borchie o gli spaziatori attaccati al telaio per fissare la scheda madre.
Installazione della memoria di sistema
Questa scheda madre fornisce 3 slot d’espansione di memoria DDR DIMM da 184 pin. La memoria minima è di 64 MB, quella massima è di 2 GB DDR SDRAM.
Inserire il modulo DDR DIMM nello slot d’espansione come mostrato dell’illustrazione­Notare come il modulo è imperniato nella presa. Ciò assicura che ci sia un unico modo per collegare il modulo DDR DIMM. Premere con fermezza il modulo DDR DIMM nello slot DDR DIMM, assicurandosi che il modulo sia inserito completamente nello slot DDR DIMM. Per questi moduli si suggerisce di inserire con ordine i chip elettronici da DIMM1 a DIMM3.
Per completare l’installazione dell’hardware del sistema, bisogna collegare tutti i cavi delle attrezzature necessarie ai relativi collettori e connettori sulla scheda madre.
Connettori, collettori, interruttori ed adattatori
All’interno della copertura di ogni computer ci sono diversi cavi e prese che devo essere collegati. Questi cavi e prese sono solitamente collegati uno ad uno ai connettori situati sulla scheda madre. E’ necessario prestare particolare attenzione a qualunque orientamento del collegamento che possono avere i cavi e, se necessario, notare la posizione del primo pin del connettore. Si installeranno alcuni adattatori per particolari necessità quali l’adattatore SCSI, AGP, eccetera. Quando si installano gli adattatori sugli slot della scheda madre, si ricorda di fissarli con le viti anche sul pannello posteriore del telaio.
Per informazioni dettagliate si prega di fare riferimento alla versione integrale del Manuale utente.
Manuale dell'utente
24 Guida all’installazione veloce Scheda madre IT7-MAX2
Collegamento dei connettori d’alimentazione ai connettori ATX1/ATXPR1
Ricordarsi che è necessario spingere con fermezza fino in fondo il connettore della sorgente d’alimentazione ATX al connettore ATX1/ATXPR1, assicurando così un buon collegamento.
Nota: Prestare attenzione alla posizione ed all’orientamento dei pin.
Impostazione BIOS
Quando l’hardware è stato installato completamente, accendere il computer ed andare alla voce BIOS per impostare i parametri del processore. Per informazioni dettagliate si prega di fare riferimento alla versione integrale del Manuale utente.
IT7-MAX2
Introduction 1-1
Chapter 1. Introduction
1-1. Features and Specifications
1. CPU
! Supports Intel Pentium ! 400MHz/533MHz System Data Bus
®
4 socket 478 processor
2. Chipset
! Intel 82845E (MCH) + 82801DB (ICH4) ! Supports AGP 4X 1.5V device only ! Supports Ultra ATA/100/66/33 mode
3. Memory
! Three 184-pin DIMM sockets (unbuffered Non-ECC DIMM) ! Supports 3 DIMM DDR 200/266 (Max. 2GB) ! Do not supports the mixed use of ECC and non-ECC RAM
4. Serial ATA
! On board 2-Channel Serial ATA interface of 1.5 G bps
5. ATA133 RAID
! HighPoint HPT374 IDE controller ! Supports Ultra ATA 133MB/sec data transfer rate ! Supports RAID 0 (Stripping mode for boosting performance) mode ! Supports RAID 1 (Mirroring mode for data security) mode ! Supports RAID 0+1 (Stripping and Mirroring) mode
6. Media XP (Optional)
! Supports memory card (MS or SD) Interface ! Supports Compact Flash ROM Interface
7. Audio
! Realtek ALC650 (AC-Link) ! Supports 6 Channel CODEC for AC3 5.1 Channel purpose ! Professional digital audio interface supporting 24-bit S/PDIF out
8. USB 2.0
! 10 x USB 2.0 ports
9. IEEE 1394
! 3 x IEEE 1394 ports
10. LAN
! Onboard RTL8100B 10/100M PCI Fast Ethernet Controller
User’s Manual
1-2 Chapter 1
11. System BIOS
! SoftMenu ! Supports Plug-and-Play (PNP) ! Supports Advanced Configuration Power Interface (ACPI)
Technology to set CPU parameters
12. Internal I/O Connectors
! 1 x AGP slot, 4 x PCI slots ! 1 x Floppy port supports up to 2.88MB ! 2 x Ultra DMA 33/66/100 connectors ! 2 x Ultra DMA 33/66/100/133 connectors (RAID) ! 2 x Serial ATA 1.5G bps connectors ! 1 x 6-Channel audio FPIO pin header (for Media XP) ! 2 x USB headers, 1 x IEEE 1394 header ! 2 x CD-IN, 1 x IrDA header
13. Back Panel I/O
! 1 x PS/2 Keyboard, 1 x PS/2 mouse ! 4 x USB connectors ! 2 x IEEE 1394 connectors ! 1 x S/PDIF Out connector ! AUDIO1 connector (Rear-Left / Rear-Right, Center/Subwoofer) ! AUDIO2 connector (Mic-In, Line-In, Front-Left/Front-Right) ! 2 x USB, 1 x RJ-45 LAN Connector
14. Miscellaneous
! ATX form factor (305 x 244 mm) ! Hardware Monitoring – including Fan Speed, Voltages, CPU and system temperature and
one thermal header for other devices temperature monitoring
! Onboard debug card design with 7-segment display
# The Switching Power Supply must meet ATX 2.03 specification with ATX12V and AUX Power
connectors.
# Specifications and information contained herein are subject to change without notice.
IT7-MAX2
Introduction 1-3
1-2. Layout Diagram
User’s Manual
1-4 Chapter 1
IT7-MAX2
Hardware Setup 2-1
Chapter 2. Hardware Setup
It is required to adopt an ATX12V power supply to meet the power requirement of Pentium® 4
This motherboard provides all standard equipment for classic personal computers with great flexibility for meeting future upgrade demands. This chapter will introduce step-by-step all of the standard equipment and will also present, as completely as possible, future upgrade capabilities.
This chapter is organized with the following features:
2-1 Install The Motherboard 2-2 Install Pentium 2-3 Install System Memory 2-4 Connectors, Headers and Switches
Before Proceeding with the Installation: Please be reminded to turn the ATX12V power supply switch
off (fully turn the +5V standby power off), or disconnect the power cord before you install or unplug any connectors or add-on cards. Failing to do so may cause the motherboard components or add-on cards to malfunction or damaged.
2-1. Install The Motherboard
Most computer chassis have a base with many mounting holes to allow motherboard to be securely attached on and at the same time, prevented from short circuits. There are two ways to attach the motherboard to the chassis base:
$ use with studs $ or use with spacers
Figure 2-1 shows the shape of studs and spacers. There may be several types, but all look similar.
In principle, the best way to attach the board is to use with studs. Only if you are unable to do this should you attach the board with spacers. Line up the holes on the board with the mounting holes on the chassis. If the holes line up and there are screw holes, you can attach the board with studs. If the holes line up and there are only slots, you can only attach with spacers. Take the tip of the spacers and insert them into the slots. After doing this to all the slots, you can slide the board into position aligned with slots. After the board has been positioned, check to make sure everything is OK before putting the chassis back on. Figure 2-2 shows the ways to fix the board to chassis by studs or spacers.
ATTENTION: To prevent shorting the PCB circuit, please REMOVE the metal studs or spacers if they are already fastened on the chassis base and are without mounting-holes on the motherboard to align with.
®
4 CPU and Heatsink Supporting-Base
Figure 2-1. The outline of stud and spacer.
Figure 2-2. The way we fixed the motherboard.
User’s Manual
2-2 Chapter 2
2-2. Install Pentium® 4 CPU and Heatsink Supporting-Base
This motherboard provides a ZIF (Zero Insertion Force) Socket 478 to install Intel
The CPU you bought should have a kit of heatsink and cooling fan along with. If that’s not the case, buy one specially designed for Pentium® 4 Socket 478. Please refer to Figure 2-3 to install CPU.
1. Locate the Socket 478. Fasten the heatsink supporting-base onto the motherboard.
ATTENTION: If you are using chassis specially designed for Pentium® 4, please pay attention to the location of metal studs or spacers if they are already installed on the chassis. Be careful not let the metal studs or spacers contact the printed circuit wire or parts on the PCB.
2. Pull the CPU socket lever sideways away from the socket and then upwards to 90 degree. Insert the CPU with the correct orientation. Do not use extra force to insert CPU; it only fit in one orientation. Closing down the socket lever while holding down the CPU.
3. Put the heatsink faces down onto the CPU until it completely covers the CPU.
4. Put the heatsink supporting-cover onto the heatsink. Make sure all the four locking clasp at each side of the supporting cover reach in the locking holes.
5. Push down the retaining clip at both sides of the supporting cover to lock up together with the supporting base. Watch out the direction for pushing down the clip.
6. The heatsink supporting cover and base should now firmly locking up with each other with the heatsink inside.
ATTENTION: Do not forget to set the correct bus frequency and multiple for your processor.
®
Pentium® 4 CPU.
IT7-MAX2
Figure 2-3. Installing P4 Socket 478 CPU and its heatsink into supporting base.
Hardware Setup 2-3
2-3. Install System Memory
This motherboard provides three 184-pin DDR DIMM sites for memory expansion available from minimum memory size of 64MB to maximum memory size of 2GB DDR SDRAM (DIMM2 & DIMM3 are sharing).
In order to create a memory array, certain rules must be followed. The following set of rules allows for optimum configurations.
Table 3-1. Valid Memory Configurations
Bank Memory Module Total Memory
Bank 0, 1 (DIMM1) 64, 128, 256, 512MB, 1GB 64MB ~ 1GB
Bank 2, 3 (DIMM2) 64, 128, 256, 512MB, 1GB 64MB ~ 1GB
Bank 3, 2 (DIMM3) 64, 128, 256, 512MB, 1GB 64MB ~ 1GB
ATTENTION: Static electricity can damage the electronic components of the computer or optional boards. Before starting these procedures, ensure that you are discharged of static electricity by touching a grounded metal object briefly.
1. Power off the computer and disconnect the AC power cord.
2. Locate the DDR DIMM slot.
3. Push both ejector tabs of the DDR DIMM slot
outward.
4. Insert the memory module into the DDR DIMM
slot. Note how the module is keyed to the slot.
This insures the memory module will be plugged into the slot in one way only.
5. Firmly press the memory module into the DDR
DIMM slot until both ejector tabs snap into places.
Total System Memory 64MB ~ 2GB
Figure 2-4. Memory module installation
User’s Manual
2-4 Chapter 2
2-4. Connectors, Headers and Switches
Inside the case of any computer there are several cables and plugs that have to be connected. These cables and plugs are usually connected one-by-one to connectors located on the board. You have to pay attention carefully to any connection orientation the cables may have and, if any, notice the position of the first pin.
Here we will show you all of the connectors, headers and switches, and how to connect them. Please read the entire section for necessary information before attempting to finish all the hardware installation inside the computer chassis. A complete enlarged layout diagram is shown in section 1-2 for all the position of connectors and headers on the board that you may refer to.
All the connectors, headers and switches mentioned here are depending on your system configuration. Some features you may (or may not) have to connect or to configure depending on the peripherals you have connected.
WARNINGE: Always power off the computer and unplug the AC power cord before adding or removing any peripheral or component. Failing to so may cause severe damage to your motherboard and/or peripherals. Plug in the AC power cord only after you have carefully checked everything.
ATX12V: ATX Power Input Connectors
(1).
The Pentium 4 requires a power supplier different from the regular one. It’s a newly designed ATX12V power with 300W, 20A +5VDC capacity at least for heavily loaded system, and 720mA +5VSB at least for supporting Wake-On-LAN feature.
IT7-MAX2
Hardware Setup 2-5
(2). FAN Connectors:
FAN1: Power Fan FAN2: CPU Fan FAN3: Spare (No monitor function) FAN4: Spare (No monitor function) FAN5: Chassis Fan
CCMOS1: CMOS Memory Clearing Header
(3).
This header uses a jumper to clear the CMOS memory. Short pin 2 and pin 3 only when you want to clear the CMOS memory. The default setting is pin 1 and pin 2 shorted for normal operation.
NOTE: Turn the power off first (including the +5V standby power) before clearing the CMOS memory. Failing to do so may cause your system to work abnormally or malfunction.
User’s Manual
2-6 Chapter 2
(4). SMB1: System Management Bus Header
This header is reserved for system management bus (SM bus). The SM bus is a specific implementation
2
of an I
C bus. I2C is a multi-master bus, which means that multiple chips can be connected to the same bus and each one can act as a master by initiating a data transfer. If more than one master simultaneously tries to control the bus, an arbitration procedure decides which master gets priority.
(5). JP1: Thermal Sensor Header
This header is a thermal sensor connector used for detecting the system environmental temperature. It may also be called a system temperature detector. You can attach one end of a two-threaded thermal cable to this header, and attach the other end of the thermal cable onto any heat source, such as VGA chipset’s heatsink, or Hard Disk Drive.
IT7-MAX2
Hardware Setup 2-7
(6). FPIO2: Front panel audio connection header
This header provides the connection to audio connector at front panel.
To use the audio connector at front panel, remove all the jumpers on this header, and then connect to front panel via an extension cable.
To use the audio connector at rear panel, disconnect the extension cable, attach the jumpers back at pin 5-6, and pin 9-10 (default setting).
Pin Pin Assignment Pin Pin Assignment
1 Audio Mic. 2 GND 3 Audio Mic. Bias 4 VCC
5 Speaker Out Right Channel 6
Speaker Out Right Channel
Return 7 X 8 NC 9 Speaker Out Left Channel 10 Speaker Out Left Channel Return
11 GND 12 S/PDIF In 13 VCC 14 S/PDIF Out
User’s Manual
2-8 Chapter 2
(7). FPIO3: Additional IEEE1394 Port Header
This header provides one additional IEEE1394 port connection besides the two onboard IEEE1 & IEEE2 connectors.
Pin Number Pin Assignment Pin Number Pin Assignment
1 TPA0 + 2 TPA0 ­3 GND 4 GND 5 TPB0 + 6 TPB0 ­7 +12V 8 +12V 9 NC 10 GND
FPIO3 Header
(8). FPIO4: Additional USB Port Header
This motherboard provides totally six USB 2.0 ports controlled by ICH4. Four of them are through the onboard USB1 and USB2 connectors; two of them are capable through this header.
Pin Number Pin Assignment Pin Number Pin Assignment
1 VCC 2 VCC 3 Data0 - 4 Data1 ­5 Data0 + 6 Data1 + 7 Ground 8 Ground 9 NC 10 NC
FPIO4 Header
IT7-MAX2
Hardware Setup 2-9
(9). FPIO5: Additional USB Port Header
This motherboard also provides totally four extra USB 2.0 ports controlled by VIA VT6202. Two of them are through the onboard LAN/USB connectors; two of them are capable through this header.
Pin Number Pin Assignment Pin Number Pin Assignment
1 VCC 2 VCC 3 Data0 - 4 Data1 ­5 Data0 + 6 Data1 + 7 Ground 8 Ground 9 NC 10 NC
FPIO5 Header
(10). JP2, JP3: Onboard Power-on/Reset Switches
These two switches mounted onboard to power on the system (JP2) or to reset the system (JP3).
User’s Manual
2-10 Chapter 2
(11). CD1, AUX1: Internal Audio Connector
These connectors connect to the audio output of internal CD-ROM drive or add-on card.
U23: POST Code Display
(12).
This is an LED device to display the “POST” Code, the acronym of Power On Self Test. The computer will execute the POST action whenever you power on the computer. The POST process is controlled by the BIOS. It is used to detect the status of the computer’s main components and peripherals. Each POST Code corresponds to different checkpoints that are also defined by the BIOS in advance. For example, “memory presence test” is an important checkpoint and its POST Code is “C1”. When the BIOS executes any POST item, it will write the corresponding POST Code into the address 80h. If the POST passes, the BIOS will process the next POST item and write the next POST Code into the address 80h. If the POST fails, we can check the POST Code in address 80h to find out where the problem lies.
IT7-MAX2
Hardware Setup 2-11
The following table shows the POST Code in detail:
POST
Code
Description
CF Test CMOS R/W functionality
Early chipset initialization:
C0
-Disable shadow RAM
-Disable L2 cache (socket 7 or below)
-Program basic chipset registers
Detect memory
C1
-Auto-detection of DRAM size, type and ECC
-Auto-detection of L2 cache (socket 7 or below) C3 Expand compressed BIOS code to DRAM C5 Call chipset hook to copy BIOS back to E000 & F000 shadow RAM 01 Expand the Xgroup codes locating in physical address 1000:0 03 Initial Superio_Early_Init switch
05
07
08
1. Blank out screen
2. Clear CMOS error flag
1. Clear 8042 interface
2. Initialize 8042 self-test
1. Test special keyboard controller for Winbond 977 series Super I/O chips
2. Enable keyboard interface
1. Disable PS/2 mouse interface (optional)
0A
2. Auto detect ports for keyboard & mouse followed by a port & interface swap (optional)
3. Reset keyboard for Winbond 977 series Super I/O chips
0E
10
12
14
Test F000h segment shadow to see whether it is R/W-able or not. If test fails, keep beeping the speaker
Auto detect flash type to load appropriate flash R/W codes into the run time area in F000 for ESCD & DMI support
Use walking 1’s algorithm to check out interface in CMOS circuitry. Also set real-time clock power status, and then check for override
Program chipset default values into chipset. Chipset default values are MODBINable by OEM customers
16 Initial Early_Init_Onboard_Generator switch
18
1B
Detect CPU information including brand, SMI type (Cyrix or Intel) and CPU level (586 or 686)
Initial interrupts vector table. If no special specified, all H/W interrupts are directed to SPURIOUS_INT_HDLR & S/W interrupts to SPURIOUS_soft_HDLR
1D Initial EARLY_PM_INIT switch
1F Load keyboard matrix (notebook platform) 21 HPM initialization (notebook platform)
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1. Check validity of RTC value: e.g. a value of 5Ah is an invalid value for RTC minute
2. Load CMOS settings into BIOS stack. If CMOS checksum fails, use default value instead
3. Prepare BIOS resource map for PCI & PnP use. If ESCD is valid, take into consideration of the ESCD’s legacy information
23
4. Onboard clock generator initialization. Disable respective clock resource to empty PCI & DIMM slots
5. Early PCI initialization:
-Enumerate PCI bus number
-Assign memory & I/O resource
-Search for a valid VGA device & VGA BIOS, and put it into C000:0
27 Initialize INT 09 buffer
1. Program CPU internal MTRR (P6 & PII) for 0~640K memory address
2. Initialize the APIC for Pentium class CPU
29
3. Program early chipset according to CMOS setup. Example: onboard IDE controller
4. Measure CPU speed
5. Invoke video BIOS
2D
1. Initialize multi-language
2. Put information on screen display, including Award title, CPU type, CPU speed …
33 Reset keyboard except Winbond 977 series Super I/O chips 3C Test 8254 3E Test 8259 interrupt mask bits for channel 1 40 Test 8259 interrupt mask bits for channel 2 43 Test 8259 functionality 47 Initialize EISA slot
49
1. Calculate total memory by testing the last double word of each 64K page
2. Program writes allocation for AMD K5 CPU
1. Program MTRR of M1 CPU
2. Initialize L2 cache for P6 class CPU & program CPU with proper cacheable range
4E
3. Initialize the APIC for P6 class CPU
4. On MP platform, adjust the cacheable range to smaller one in case the cacheable ranges between each CPU are not identical
50 Initialize USB 52 Test all memory (clear all extended memory to 0) 55 Display number of processors (multi-processor platform)
Display PnP logo
57
Early ISA PnP initialization
-Assign CSN to every ISA PnP device
59 Initialize the combined Trend Anti-Virus code 5B (Optional Feature) Show message for entering AWDFLASH.EXE from FDD (optional)
5D
60
1. Initialize Init_Onboard_Super_IO switch
2. Initialize Init_Onbaord_AUDIO switch
Okay to enter Setup utility; i.e. not until this POST stage can users enter the CMOS setup
utility 65 Initialize PS/2 Mouse 67 Prepare memory size information for function call: INT 15h ax=E820h 69 Turn on L2 cache
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Hardware Setup 2-13
6B
Program chipset registers according to items described in Setup & Auto-configuration
table
1. Assign resources to all ISA PnP devices
6D
2. Auto assign ports to onboard COM ports if the corresponding item in Setup is set to “AUTO”
6F
1. Initialize floppy controller
2. Set up floppy related fields in 40:hardware
(Optional Feature) Enter AWDFLASH.EXE if:
73
-AWDFLASH is found in floppy drive
-ALT+F2 is pressed
75 Detect & install all IDE devices: HDD, LS120, ZIP, CDROM … 77 Detect serial ports & parallel ports.
7A Detect & install co-processor
Switch back to text mode if full screen logo is supported
7F
-If errors occur, report errors & wait for keys
-If no errors occur or F1 key is pressed to continue: Clear EPA or customization logo
1. Call chipset power management hook
82
2. Recover the text fond used by EPA logo (not for full screen logo)
3. If password is set, ask for password
83 Save all data in stack back to CMOS 84 Initialize ISA PnP boot devices
1. USB final Initialization
2. NET PC: Build SYSID structure
3. Switch screen back to text mode
85
4. Set up ACPI table at top of memory
5. Invoke ISA adapter ROMs
6. Assign IRQs to PCI devices
7. Initialize APM
8. Clear noise of IRQs
93 Read HDD boot sector information for Trend Anti-Virus code
1. Enable L2 cache
2. Program boot up speed
3. Chipset final initialization
94
4. Power management final initialization
5. Clear screen & display summary table
6. Program K6 write allocation
7. Program P6 class write combining
95
1. Program daylight saving
2. Update keyboard LED & typematic rate
1. Build MP table
2. Build & update ESCD
96
3. Set CMOS century to 20h or 19h
4. Load CMOS time into DOS timer tick
5. Build MSIRQ routing table
FF Boot attempt (INT 19h)
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(13). FPIO6 Headers
This header is used for connecting switches and LED indicators on the chassis front panel.
Watch the power LED pin position and orientation. The mark “+” align to the pin in the figure below stands for positive polarity for the LED connection. Please pay attention to connect these headers. A wrong orientation will only cause the LED not lighting, but a wrong connection of the switches could cause system malfunction.
Pin 1-3: HDD-LED
Connects to the HDD LED cable of chassis front panel.
Pin 5-7: RESET
Connects to the Reset Switch cable of chassis front panel.
Pin 15-21: SPEAKER
Connects to the System Speaker cable of chassis.
Pin 2-4: SP-LED
Connects to the Suspend LED cable (if there is one) of chassis front panel.
Pin 6-8: PWR-ON
Connects to the Power Switch cable of chassis front panel.
Pin 16-20: PWR-LED
Connects to the Power LED cable of chassis front panel.
Pin 22-24: KEYLOCK
Connects to the Keylock cable (if there is one) of chassis front panel.
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Hardware Setup 2-15
(14). AGP1: Accelerated Graphics Port Slot
This slot supports an optional AGP graphics card up to AGP 4X mode. Please refer to our Web site for more information on graphics cards.
(15). FDC1 Connector
There are 34 wires and two connectors on each floppy cable providing two floppy disk drives connection. Connect the single end at the longer length of ribbon cable to this FDC1, and the two connectors on the other end to the floppy disk drives. Generally you need only one floppy disk drive in your system.
Note: The red line on the ribbon cable should be aligned with pin 1 on this connector.
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(16). IDE1/IDE2 and IDE3/IDE4 Connectors
This motherboard provides two IDE ports to connect up to four IDE drives at Ultra ATA/100 mode by Ultra ATA/66 ribbon cables. Each cable has 40-pin 80-conductor and three connectors, providing two hard drives connection with motherboard. Connect the single end (blue connector) at the longer length of ribbon cable to the IDE port on motherboard, and the other two ends (gray and black connector) at the shorter length of the ribbon cable to the connectors on hard drives.
If you want to connect two hard drives together through one IDE channel, you must configure the second drive to Slave mode after the first Master drive. Please refer to the drives’ documentation for jumper settings. The first drive connected to IDE1 is usually referred to as “Primary Master”, and the second drive as “Primary Slave”. The first drive connected to IDE2 is referred to as “Secondary Master” and the second drive as “Secondary Slave”.
Keep away from connecting one legacy slow speed drive, like CD-ROM, together with another hard drive on the same IDE channel; this will drop your integral system performance.
IDE3 ~ IDE4 are extra devices controlled by a HighPoint HPT374 chipset. This bonus feature allows for having regular Ultra ATA/133 devices ports, or a RAID array in the combination of RAID 0, RAID 1, or RAID 0+1 mode.
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Hardware Setup 2-17
(17). D17/D18: Status Indicator
D17 (5VSB): Stand By LED Indicator
This LED lights up when the power supply is connected with power source.
D18 (VCC): Power on Indicator
This LED lights up when the system power is on.
J3/J4: Serial ATA Connector
(18).
These two connectors are provided to attach one serial ATA device at each channel through Serial ATA cable.
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(19). Back Panel Connectors
Mouse: PS/2 Mouse Connector
Attach a PS/2 mouse to this 6-pin Din-connector.
Keyboard: PS/2 Keyboard Connector
Attach a PS/2 keyboard connector to this 6-pin Din-connector. If you use an AT keyboard, you can go to a computer store to purchase an AT to ATX converter adapter. You can then connect your AT keyboard to this connector. We suggest you use a PS/2 keyboard for best compatibility.
USB1/USB2 These four connectors provide USB 2.0 ports controlled by ICH4.
IEEE1/IEEE2 These two onboard IEEE1394 ports connect to IEEE1394 devices.
OPT2 This connector provides an S/PDIF out connection through optical fiber to digital multimedia
devices.
AUDIO1 R.L./R.R. (Rear Left / Rear Right): Connects to the rear left and rear right channel in the 5.1
channel audio system. Cen./Sub. (Center / Subwoofer): Connects to the center and subwoofer channel in the 5.1
channel audio system.
AUDIO2 Mic In: Connects to the plug from external microphone. Line In: Connects to the line out from external audio sources. F.L./F.R. (Front Left / Front Right): Connects to the front left and front right channel in the
5.1-channel or regular 2-channel audio system.
LAN/USB LAN: Connect your system to Local Area Network through this connector. USB: These two connectors provide USB 2.0 ports controlled by VIA VT6202.
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BIOS Setup 3-1
Chapter 3. BIOS Setup
The BIOS is a program located on a Flash Memory chip on the motherboard. This program will not be lost when you turn the computer off. This program is also referred to as the boot program. It is the only channel the hardware circuit has to communicate with the operating system. Its main function is to manage the setup of the motherboard and interface card parameters, including simple parameters such as time, date, hard disk drive, as well as more complex parameters such as hardware synchronization, device operating mode, CPU SoftMenu normally, or will operate at its best, only if all of these parameters are correctly configured through the BIOS.
Don’t change the parameters inside the BIOS unless you fully understand their meanings and consequences: The parameters inside the BIOS are used to setup the hardware synchronization or the
device-operating mode. If the parameters are not correct, they will produce errors, the computer will crash, and sometimes you will not even be able to boot the computer after it has crashed. We recommend that you do not change the parameters inside the BIOS unless you are very familiar with them. If you are not able to boot your computer anymore, please refer to the section “Erase CMOS data” in Chapter 2.
When you start the computer, the BIOS program controls it. The BIOS first operates an auto-diagnostic test called POST (Power On Self Test) for all of the necessary hardware. It then configures the parameters of the hardware synchronization, and detects all of the hardware. Only when these tasks are completed does it give up control of the computer to the next level, which is the operating system (OS). Since the BIOS is the only channel for hardware and software to communicate, it is the key factor for system stability, and in ensuring that your system performs at its best. After the BIOS has achieved the auto-diagnostic and auto-detection operations, it will display the following message:
The message will be displayed for three to five seconds, if you press the <Del> key, you will access the BIOS Setup menu. At that moment, the BIOS will display the following screen:
III features and setup of CPU speed. The computer will operate
PRESS DEL TO ENTER SETUP
Figure 3-1. CMOS Setup Utility
NOTE: Because the BIOS menu is being constantly improved to increase stability and performance, the
BIOS screens in this manual may not completely match your BIOS version. All the default settings in this chapter are taken from the Load Optimized Defaults settings, which are different from those taken from Load Fail-Safe Defaults.
In the BIOS Setup main menu of Figure 3-1, you can see several options. We will explain these options step by step in the following pages of this chapter, but let us first see a short description of the function keys you may use here:
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Press Esc to quit the BIOS Setup.
Press ↑ ↓ ← → (up, down, left, right) to choose, in the main menu, the option you want to
confirm or to modify.
Press F10 when you have completed the setup of BIOS parameters to save these parameters and to exit the BIOS Setup menu.
Press Page Up/Page Down or +/- keys when you want to modify the BIOS parameters for the active option.
CMOS Data: Maybe you have heard somebody saying that his or her CMOS DATA was lost. What is the CMOS? Is it important? The CMOS is the memory used to store the BIOS parameters that you have configured. This memory is passive. You can read its data, and you can also store data in it. But this memory has to be powered by a battery in order to avoid any loss of its data when the computer is turned off. Since you may have to change the CMOS battery when it is out of power, and if doing so you will lose all CMOS data, we recommend that you write down all the parameters of your hardware, or to put a label with these parameters on your hard disk.
3-1. CPU Setup [SoftMenu™ III]
The CPU can be setup through a programmable switch (CPU SoftMenu™ III) that replaces the traditional manual hardware configuration. This feature allows the user to more easily complete the installation procedures. You can install the CPU without configuring any jumpers or switches. The CPU must be setup according to its specifications.
In the first option, you can press <F1> at any time to display all the items that can be chosen for that option.
Figure 3-2. CPU SoftMenu™ III
CPU Name Is:
Intel Pentium (R) 4.
CPU Internal Frequency:
2.266GHz (depending on the CPU type).
ECC Data Integrity Mode:
This item displays the status of DRAM type the system support. For using ECC type, you have to install
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BIOS Setup 3-3
one pair of DRAM both of ECC type. A different type, like one ECC and one Non-ECC, will leave this item as Unsupported.
CPU Operating Speed:
This option sets the CPU speed. In this field, the CPU speed is indicated like this: CPU Speed = External Clock x Multiplier Factor. Select the CPU speed according the type and speed of your CPU.
User Define:
WARNING: The wrong settings of the multiplier and external clock in certain circumstances may cause CPU damage. Setting the working frequency higher than the PCI chipset or processor specs, may cause abnormal memory module functioning, system hangs, hard disk drive data lose, abnormal functioning of the VGA card, or abnormal functioning with other add-on cards. Using non-specification settings for your CPU is not the intention of this explanation. These should be used for engineering testing, not for normal applications.
If you use non-specification settings for normal operation, your system may not be stable, and may affect system reliability. Also, we do not guarantee the stability and compatibility for settings that are not within specification, and any damage of any elements on the motherboard or peripherals, is not our responsibility.
# Ext. Clock (CPU/AGP/PCI):
After choosing the “CPU Operating Speed” option as “User Define”, you can choose the external clock frequency from 100MHz to 250 MHz. The best frequency is either 100MHz or 133MHz depending on the CPU type and its speed. The default setting is 100MHz.
# PCI Bus Frequency:
This item determines the PCI bus frequency. The options are: Ext. Clock/3, Ext. Clock/4, 44MHz (fixed), 37MHz (fixed), and 33MHz (fixed). The default setting is Ext. Clock/3.
# Multiplier Factor:
The multiplier factors for this motherboard are: x8, x9, x10, x11, x12 …… (These factors vary with the different type and specification of the CPU installed)
NOTE: Some processors might have this multiplier factor locked, so there is no way to choose a higher multiplier factor.
# DRAM Ratio H/W Strap:
This item sets the external hardware reset strap assigned to MCH (Memory Controller Hub). The options are: Low, High, and By CPU. The default setting is By CPU.
To set this option manually:
Select “Low” for CPU of 400MHz FSB frequency.
Select “High” for CPU of 533MHz FSB frequency.
# DRAM Ratio (CPU:DRAM):
This item determines the frequency ratio between CPU and DRAM. The options are: 1:1 and 3:4 (under Low “DRAM Ratio H/W Strap” settings), or 4:3 and 1:1 (under High “DRAM Ratio H/W Strap” settings). The default setting is By SPD.
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# Speed Error Hold:
The default setting is Disabled. If you change the setting to “Enabled” when the CPU speed setting is wrong, the system will hold.
Normally, we do not recommend that you use the “User Define” option to setup CPU speed and multiplier factors. This option is for setup of future CPUs whose specifications are still unknown. The specifications of all present CPUs are included in the default settings. Unless you are very familiar with all CPU parameters, it is very easy to make mistakes when you define the external clock and the multiplier factor by yourself.
Solution in case of booting problem due to invalid clock setup:
Normally, if the CPU clock setup is wrong, you will not be able to boot the system. In this case, turn the system off then on again. The CPU will automatically use its standard parameters to boot. You can then enter the BIOS Setup again and set up the CPU clock.
When you change your CPU:
This motherboard has been designed in such a way that you can turn the system on after having inserted a CPU in the socket without having to configure any jumpers or DIP switches. If you change your CPU, normally you just have to turn off the power supply, change the CPU and then set up the CPU parameters through SoftMenu
III. However, if the new CPU is slower than the old one (and is the same brand and
type), we offer you two methods to successfully complete the CPU change operation.
Method 1: Setup up the CPU for the lowest speed for its brand. Turn the power supply off and change the CPU. Then turn the system on again, and set up the CPU parameters through SoftMenu
III.
Method 2: Since you have to open the computer case when you change the CPU, it would be a good idea
to use the JP5 jumper to erase the parameters of the original CPU and to enter BIOS Setup to set up CPU parameters again.
ATTENTION: After setting up the parameters and leaving the BIOS SETUP, and having verified that the system can be booted, do not press the Reset button or turn off the power supply. Otherwise the BIOS will not read correctly, the parameters will fail and you must enter SoftMenu™ III again to set up the parameters all over again.
CPU Power Supply:
This option allows you to switch between CPU default and user-defined voltages. Leave this setting to default unless the current CPU type and voltage setting cannot be detected or is not correct. The option “User Define” enables you to select the Core Voltage manually.
CPU Core Voltage:
This item selects the CPU core voltage.
ATTENTION: A wrong voltage setting may cause the system unstable or even damage the CPU. Please
leave it to default settings unless you are fully aware of its consequences.
DRAM Voltage:
This item selects the DRAM voltage.
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BIOS Setup 3-5
3-2. Standard CMOS Features Setup Menu
This section contains the basic configuration parameters of the BIOS. These parameters include date, hour, VGA card, FDD and HDD settings.
Figure 3-3. Standard CMOS Setup Screen Shot
Date (mm:dd:yy):
You can set the date in this item: month (mm), date (dd) and year (yy).
Time (hh:mm:ss):
You can set the time in this item: hour (hh), minute (mm) and second (ss).
IDE Primary Master / Slave and IDE Secondary Master / Slave:
These items have a sub-menu to let you choose further options. You can refer to Figure 3-4 to check what options are available.
Figure 3-4. IDE Primary Master Setup Screen Shot
IDE HDD Auto-Detection:
Press the <Enter> key for the BIOS to auto detect all detailed parameters of the hard disk drives (HDD). If auto detection is successful, the correct values will be shown in the remaining items of this menu.
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NOTE: A new IDE HDD must be first formatted, otherwise it can not read/write. The basic step in using a HDD is to make a HDD low-level format, then run FDISK, and then FORMAT the drive. Most current HDDs have already been subjected to low-level format at the factory, so you can probably skip this operation. Remember though, the primary IDE HDD must have its partition set to active within the FDISK procedure.
If you are using an old HDD that is already formatted, auto detection can not detect the correct parameters. You may need to do a low-level format or set the parameters manually, and then check if the HDD is working.
IDE Primary Master:
Three settings are available: Auto, Manual and None. If you choose Auto, the BIOS will automatically check what kind of hard disk you are using. If you want to set the HDD parameters yourself, make sure you fully understand the meaning of the parameters, and be sure to refer to the manual provided by the HDD manufacturer to get the settings right.
Access Mode:
Since old operating systems were only able to support HDDs with capacities no bigger than 528MB, any hard disk with more than 528MB was unusable. AWARD BIOS features a solution to this problem: you can, according to your operating system, choose four operating modes: NORMAL % LBA % LARGE %Auto.
The HDD auto detection option in the sub-menu will automatically detect the parameters of your hard disk and the mode supported.
Auto: Lets the BIOS detect your HDD access mode and make the decisions.
Normal mode: Standard normal mode supports hard disks of up to 528MB or less. This mode directly
uses positions indicated by Cylinders (CYLS), Heads, and Sectors to access data.
LBA (Logical Block Addressing) mode: The earlier LBA mode can support HDD capacities of up to
8.4GB, and this mode uses a different method to calculate the position of disk data to be accessed. It translates Cylinders (CYLS), Heads and Sectors into a logical address where data is located. The Cylinders, Heads, and Sectors displayed in this menu do not reflect the actual structure of the hard disk. They are just reference values used to calculate actual positions. Currently, all high capacity hard disks support this mode and that is why we recommend you use this mode. Currently, the BIOS can support the INT 13h extension function, enabling the LBA mode to support hard disk drive capacities exceeding
8.4GB.
Large Mode: When the number of cylinders (CYLs) of the hard disk exceeds 1024 and DOS is not able to support it, or if your operating system does not support LBA mode, you should select this mode.
Capacity:
This item auto displays your HDD size. Note that this size is usually slightly greater than the size given by a disk checking program of a formatted disk.
NOTE: All the items below are available when you set the item “Primary IDE Master” to “Manual”.
Cylinder:
When disks are placed directly above one another along the shaft, the circular vertical “slice” consisting of all the tracks located in a particular position is called a cylinder. You can set the number of cylinders
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BIOS Setup 3-7
for a HDD. The minimum number you can enter is 0, the maximum number you can enter is 65536.
Head:
This is the tiny electromagnetic coil and metal pole used to create and read back the magnetic patterns on the disk (also called the read/write head). You can configure the number of read/write heads. The minimum number you can enter is 0, the maximum number you can enter is 255.
Precomp:
The minimum number you can enter is 0, the maximum number you can enter is 65536.
WARNING: Setting a value of 65536 means no hard disk exists.
Landing Zone:
This is a non-data area on the disk's inner cylinder where the heads can rest when the power is turned off. The minimum number you can enter is 0, the maximum number you can enter is 65536.
Sector:
The minimum segment of track length that can be assigned to stored data. Sectors usually are grouped into blocks or logical blocks that function as the smallest units of data permit. You can configure this item to sectors per track. The minimum number you can enter is 0, the maximum number you can enter is 255.
Drive A & Drive B:
If you have installed the floppy disk drive here, then you can select the type of floppy drive it can support. Six options are available: None % 360K, 5.25in. % 1.2M, 5.25in. % 720K, 3.5in. % 1.44M, 3.5in. %
2.88M, 3.5in.
Floppy 3 Mode Support:
Four options are available: Disabled % Driver A % Driver B % Both. The default setting is Disabled. 3 Mode floppy disk drives (FDD) are 3 1/2” drives used in Japanese computer systems. If you need to access data stored in this kind of floppy, you must select this mode, and of course you must have a 3 Mode floppy drive.
Video:
You can select the VGA modes for your video adapter, four options are available: EGA/VGA % CGA 40 % CGA 80 % MONO. The default setting is EGA/VGA.
Halt On:
You can select which type of error will cause the system to halt. Five options are available: All Errors % No Errors % All, But Keyboard % All, But Diskette % All, But Disk/Key.
You can see your system memory list in the lower left box, it shows the Base Memory, Extended Memory and total Memory size configurations in your system. It is detected by the system during boot-up procedure.
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3-3. Advanced BIOS Features Setup Menu
With each item, you can press <Enter> at any time to display all the options for that item.
ATTENTION: Advanced BIOS Features Setup Menu has already been set for maximum operation. If you do not really understand each of the options in this menu, we recommend you use the default values.
Figure 3-5. Advanced BIOS Features Setup Screen
Virus Warning:
This item can be set to Enabled or Disabled, the default setting is Disabled.
When this feature is enabled, if there is any attempt from a software or an application to access the boot sector or the partition table, the BIOS will warn you that a boot virus is attempting to access the hard disk.
CPU L1 & L2 Cache:
This item is used to enable or to disable the CPU level 1 cache. When the cache is set to Disabled, it is much slower, so the default setting for this item is Enabled since it will speed up memory access. Some old and very poorly written programs will make the computer malfunction or crash if the system speed is too high. In this case, you should disable this feature. The default setting is Enabled.
Quick Power On Self Test:
After the computer has been powered on, the BIOS of the motherboard will run a series of tests in order to check the system and its peripherals. If the Quick Power on Self-Test feature is enabled, the BIOS will simplify the test procedures in order to speed up the boot process. The default setting is Enabled.
First Boot Device:
When the computer boots up, the BIOS attempts to load the operating system from the devices in the sequence selected in these items: floppy disk drive A, LS/ZIP devices, hard drive C, SCSI hard disk drive or CD-ROM. There are eleven options for the boot sequence that you can choose (The default setting is Floppy.):
Floppy % LS120 % HDD-0 % SCSI % CDROM % HDD-1 % HDD-2 % HDD-3 % ZIP100 % LAN % ATA133RAID % Disabled.
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BIOS Setup 3-9
Second Boot Device:
Description is the same as the First Boot Device, the default setting is HDD-0.
Third Boot Device:
Description is same as the First Boot Device, the default setting is LS120.
Boot Other Device:
Two options are available: Enabled or Disabled. The default setting is Enabled. This setting allows the BIOS to try three kinds of boot devices that are set from the above three items.
Swap Floppy Drive:
This item can be set as Enabled or Disabled. The default setting is Disabled. When this feature is enabled, you don’t need to open the computer case to swap the position of floppy disk drive connectors. Drive A can be set as drive B and drive B can be set as drive A.
Boot Up Floppy Seek:
When the computer boots up, the BIOS detects if the system has an FDD or not. When this item is enabled, if the BIOS detects no floppy drive, it will display a floppy disk drive error message. If this item is disabled, the BIOS will skip this test. The default setting is Disabled.
Boot Up NumLock Status:
On: At boot up, the Numeric Keypad is in numeric mode. (Default Settings) Off: At boot up, the Numeric Keypad is in cursor control mode.
Typematic Rate Setting:
This item allows you to adjust the keystroke repeat rate. When set to Enabled, you can set the two keyboard typematic controls that follow (Typematic Rate and Typematic Rate Delay). If this item is set to Disabled, the BIOS will use the default setting. The default setting is Enabled.
Typematic Rate (Chars/Sec):
When you press a key continuously, the keyboard will repeat the keystroke according to the rate you have set (Unit: characters/second). Eight options are available: 6 % 8 % 10 % 12 % 15 % 20 % 24 % 30 % Back to 6. The default setting is 30.
Typematic Delay (Msec):
When you press a key continuously, if you exceed the delay you have set here, the keyboard will automatically repeat the keystroke according to a certain rate (Unit: milliseconds). Four options are available: 250 % 500 % 750 % 1000 % Back to 250. The default setting is 250.
Security Option:
This option can be set to System or Setup. The default setting is Setup. After you have created a password through PASSWORD SETTING, this option will deny access to your system (System) or modification of computer setup (BIOS Setup) by unauthorized users.
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SYSTEM: When you choose System, a password is required each time the computer boots up. If the correct password is not given, the system will not start.
SETUP: When you choose Setup, a password is required only when accessing the BIOS Setup. If the correct password is not given, you can’t enter the BIOS setup menu.
To disable security, select Set Supervisor Password at main menu and then you will be asked to enter the password. Do not type anything and just press the <Enter> key and it will disable security. Once security is disabled, the system will boot and you can enter the BIOS setup menu freely
NOTE: Don’t forget your password. If you forget the password, you will have to open the computer case and clear all information in the CMOS before you can start up the system. But by doing this, you will have to reset all previously set options.
APIC Mode:
Two options are available: Enabled or Disabled. The default setting is Enabled.
MPS Version Control For OS :
This item specifies which version of MPS (Multi-Processor Specification) this motherboard will use. The options are 1.1 and 1.4. The default setting is 1.4. If you use an older OS for dual processor executing, please set this option to 1.1.
OS Select For DRAM > 64MB:
When the system memory is bigger than 64MB, the communication method between the BIOS and the operating system will differ from one operating system to another. If you use OS/2, select OS2; if you are using another operating system, select Non-OS2. The default setting is Non-OS2.
Report No FDD For OS:
When you are running some older Windows version without floppy drive, set this item to Yes. Otherwise, set it to No. The default setting is No.
Delay IDE Initial (Secs):
This item is used to support some old models or special types of hard disks or CD-ROMs. They may need a longer amount of time to initialize and prepare for activation. Since the BIOS may not detect those kinds of devices during system booting. You can adjust the value to fit such devices. Larger values will give more delay time to the device. The minimum number you can enter is 0, the maximum number you can enter is 15. The default setting is 0.
Small Logo(EPA) Show:
This item determines to show the EPA logo when booting. The default setting is Disabled.
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3-4. Advanced Chipset Features Setup Menu
The Chipset Features Setup Menu is used to modify the contents of the buffers in the chipset on the motherboard. Since the parameters of the buffers are closely related to hardware, if the setup is not correct or is false, the motherboard will become unstable or you will not be able to boot up. If you don’t know the hardware very well, use default values (i.e. use the LOAD SETUP DEFAULTS option). The only time you might consider making any changes is if you discover that data is being lost while using your system.
Figure 3-6. Chipset Features Setup Screen
You can use the arrow keys to move between the items. Use & , ' and <Enter> key to change the values. When you have finished setting up the chipset, press <Esc> to go back to the main menu.
NOTE: The parameters in this screen are for system designers, service personnel, and technically competent users only. Do not reset these values unless you understand the consequences of your changes.
The first chipset settings deal with CPU access to DRAM. The default timings have been carefully chosen and should only be altered if data is being lost. Such a scenario might well occur if your system has mixed speed DRAM chips installed. In such a case, greater delays may be required to preserve the integrity of the data held in the slower memory chips.
DRAM Timing Selectable:
This item sets the optimal timings for the following four items, depending on the memory module you are using. The default setting “By SPD” configures these four items by reading the contents in the SPD (Serial Presence Detect) device. The EEPROM on the memory module stores critical parameter information about the module, such as memory type, size, speed, voltage interface, and module banks.
# CAS Latency Time:
This item controls the latency between the DRAM read command and the time that the data becomes actually available. The options are: 1.5, 2, and 2.5.
# Act to Precharge Delay:
The options are: 7, 6, and 5.
# DRAM RAS# to CAS# Delay
This item controls the latency between the DRAM active command and the read/write command. The options are: 2 and 3.
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# DRAM RAS# Precharge:
This item controls the idle clocks after issuing a precharge command to the DRAM.
DRAM Data Integrity Mode:
Two options are available: ECC and Non-ECC. The default setting is Non-ECC. This option is used to configure the type of DRAM in your system. ECC is “Error Checking and Correction”. Choose the ECC option only when your memory is ECC type.
Dram Read Thermal Mgmt:
This option controls the thermal management of DRAM module. The default setting is Disabled.
System BIOS Cacheable:
You can select Enabled or Disabled. The default setting is Enabled. When you select Enabled allows caching of the system BIOS ROM at F0000h-FFFFFh, resulting in better system performance. However, if any program writes to this memory area, a system error may result.
Video BIOS Cacheable:
You can select Enabled or Disabled. The default setting is Enabled. Enabled allows caching of the video BIOS, resulting in better system performance. However, if any program writes to this memory area, a system error may result.
Video RAM Cacheable:
Two options are available: Enabled and Disabled. The default setting is Disabled. Enabled allows you to get faster video RAM executing speed via the L2 cache. You must check your VGA adapter documentation to see if any compatibility problem will occur.
Memory Hole At 15M-16M:
Two options are available: Enabled and Disabled. The default setting is Disabled. This option is used to reserve the memory block 15M-16M for ISA adapter ROM. Some special peripherals need to use a memory block located between 15M and 16M, and this memory block has a size of 1M. We recommend that you disable this option.
Delayed Transaction:
Two options are available: Enabled and Disabled. The default setting is Disabled. Set the option to enabled or disabled PCI 2.1 features including passive release and delayed transaction for the chipset. This function is used to meet the latency of PCI cycles to or from the ISA bus. This option must be enabled to provide PCI 2.1 compliance. If you have an ISA card compatibility problem, you can try to enable or disable this option for optimal results.
AGP Aperture Size:
The options are: 4, 8, 16, 32, 64, 128, and 256MB. The default setting is 64MB. This option specifies the amount of system memory that can be used by the AGP device. The aperture is a portion of the PCI memory address range dedicated for graphics memory address space. Host cycles that hit the aperture range are forwarded to the AGP without any translation. See www.agpforum.org for AGP information.
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Delay Prior to Thermal:
The options are: 4, 8, 16, and 32 Minutes. The default setting is 16 Min.
AGP Data Transfer Rate:
You can select the AGP device data transfer rate capability. Two options are available: 2X Mode and 4X Mode. The default setting is 4X Mode.
Enhance DRAM Performance:
Choose Enabled to enhance the system performance if there is no DRAM compatible issue occurred. The default setting is Disabled.
3-5. Integrated Peripherals
In this menu, you can change the onboard I/O device, I/O port address and other hardware settings.
Figure 3-7. Integrated Peripherals Menu Screen
Onboard IDE-1 Controller:
The onboard IDE 1 controller can be set as Enabled or Disabled. The default setting is Enabled. The integrated peripheral controller contains an IDE interface with support for two IDE channels. If you choose Disabled, it will effect the settings of four items not available. For example, if you disabled the
Onboard IDE-1 Controller, you will also disable the Master/Slave Drive PIO Mode and Master/Slave Drive Ultra DMA.
# Master/Slave Drive PIO Mode
Six options are available: Auto % Mode 0 % Mode 1 % Mode 2 % Mode 3 % Mode 4. The five IDE PIO (Programmed Input/Output) items let you set a PIO mode (0-4) for each of the four IDE devices that the onboard IDE interface supports. Modes 0 through 4 provide successively increased performance. In Auto mode (default setting), the system automatically determines the best mode for each device.
# Master/Slave Drive Ultra DMA
Two options are available: Auto and Disabled. The default setting is Auto. Ultra DMA is a DMA data
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transfer protocol that utilizes ATA commands and the ATA bus to allow DMA commands to transfer data at a maximum burst rate of 100 MB/sec.
Ultra DMA/33 or Ultra DMA/66/100 implementation is possible only if your IDE hard drive supports it and the operating environment includes a DMA driver.
Auto: If your hard drive and your system software both support Ultra DMA, select Auto to enable BIOS support.
Disabled: If you encounter a problem in using Ultra DMA devices, you can try to disable this item.
Onboard IDE-2 Controller:
The description is same as the Onboard IDE-1 Controller.
USB Controller:
Two options are available: Enabled and Disabled. The default setting is Enabled. This motherboard provides two Universal Serial Bus (USB) ports, thus supporting USB devices. If you don't want to use USB devices, set it to Disabled, then the item USB Keyboard Support & USB Mouse Support will also be disabled.
# USB Keyboard Support:
Two options are available: OS and BIOS. If you want to use USB keyboard in DOS environment, please set it to BIOS.
# USB Mouse Support:
Two options are available: OS and BIOS. If you want to use USB mouse in DOS environment, please set it to BIOS.
AC97 Audio
Two options are available: Auto and Disabled. The default setting is Auto. If you set it to Auto, it will allow the BIOS to detect the audio device you use. If an audio device is detected, the onboard audio controller will be able to support it. If you want to use another audio adapter card to connect the audio connectors, please set this item to Disabled.
Init Display First:
Two options are available: PCI Slot and AGP. The default setting is PCI Slot. When you install an additional display card, you can choose either a PCI display card or an AGP display card to activate the display boot-up screen.
IDE HDD Block Mode:
Block mode is also called block transfer, multiple commands, or multiple sector read/write. If your IDE hard drive supports block mode (most new drives do), select Enabled for automatic detection of the optimal number of block read/writes per sector the drive can support. The default setting is Enabled.
Onboard LAN Controller:
This option enables or disables the LAN controller. The default setting is Enabled.
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Onboard LAN Boot ROM:
This option enables or disables the Boot ROM on LAN controller. The default setting is Enabled.
ATA133RAID IDE Controller:
This motherboard’s built-in HighPoint HPT374 chipset provides you the capability to support two more IDE channels: IDE3~IDE4 (support up to ATA133 specifications).
S-ATA Bridge Host Mode:
This option determines the host mode of Serial ATA Bridge among 100, 133, and 150 Mbps. The default setting is 150 Mbps.
Onbrd IEEE1394 Controller:
This option enables or disables the onboard IEEE1394 controller. The default setting is Enabled.
Onboard USB 2.0 Controller:
This option enables or disables the onboard USB2.0 controller. The default setting is Enabled.
Onboard FDD Controller:
This option enables or disables the onboard FDD controller. The default setting is Enabled.
PWRON After PWR-Fail:
This setting lets you set the system action after a power failure. Three options are available: On % Former-Sts % Off. The default setting is Off.
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3-6. Power Management Setup Menu
This menu allows you to set up the power management in order to reduce power consumption.
Figure 3-8. Power Management Setup Menu
If you want ACPI (Advanced Configuration and Power Interface) functions to work normally, you should notice two things. One is your operating system must support ACPI. The second thing is that all devices and add-on cards in your system must fully support ACPI, both hardware and software (drivers). If you want to know if your devices or add-on cards support ACPI or not, please contact the device or add-on card manufacturer for more information. If you want to know more about ACPI specifications, please go to the address below for more detailed information: http://www.acpi.info/
ACPI requires an ACPI-aware operating system. ACPI features include:
Plug and Play (including bus and device enumeration) and APM functionality normally contained in the BIOS.
Power management control of individual devices, add-in cards (some add-in cards may require an ACPI-aware driver), video displays, and hard disk drives.
A Soft-off feature that enables the operating system to power off the computer.
Support for multiple wake-up events (see Table 3-1).
Support for a front panel power and sleep mode switch. Table 3-2 describes the system states
based on how long the power switch is pressed, depending on how ACPI is configured with an ACPI-aware operating system.
System States and Power States:
Under ACPI, the operating system directs all system and device power state transitions. The operating system puts devices in and out of low-power states based on user preferences and knowledge of how devices are being used by applications. Devices that are not being used can be turned off. The operating system uses information from applications and user settings to put the system as a whole into a low-power state.
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Table 3-1: Wake Up Device and Events
The table below describes which devices or specific events can wake the computer from specific states.
These device/events can wake up the computer…… ……from this state
Power switch Sleeping mode or power off mode RTC alarm Sleeping mode or power off mode LAN Sleeping mode or power off mode Modem Sleeping mode or power off mode IR command Sleeping mode USB Sleeping mode PS/2 keyboard Sleeping mode or power off mode PS/2 mouse Sleeping mode or power off mode
Table 3-2: Effect of Pressing the Power Switch
If the system is in this state……
Off Less than four seconds Power on On More than four seconds Fail safe power off On Less than four seconds Soft off/Suspend Sleep Less than four seconds Wake up
ACPI Suspend Type:
Two options are available: S1(POS) and S3(STR). The default setting is S1(POS). Generally, ACPI has six states: System S0 state, S1, S2, S3, S4, S5. S1 and S3 states are described below:
……and the power switch is pressed for
……the system enters this state
The S1 (POS) State (POS means Power On Suspend):
While the system is in the S1 sleeping state, its behavior is as described below:
The processor is not executing instructions. The processor’s complex context is maintained.
Dynamic RAM context is maintained.
Power Resources are in a state compatible with the system S1 state. All Power Resources that
supply a System Level reference of S0 are in the OFF state.
Devices states are compatible with the current Power Resource states. Only devices which solely reference Power Resources which are in the ON state for a given device state can be in that device state. In all other cases, the device is in the D3 (off) state.
Devices that are enabled to wake the system and that can do so from their current device state can initiate a hardware event which transitions the system state to S0. This transition causes the processor to continue execution where it left off.
To transition into the S1 state, the operating software does not have to flush the processor's cache.
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The S3 (STR) State (STR means Suspend to RAM):
The S3 state is logically lower then the S2 state and is assumed to conserve more power. The behavior of this state is defined as follows:
Processor is not executing instructions. The processor complex context is not maintained.
Dynamic RAM context is maintained.
Power Resources are in a state compatible with the system S3 state. All Power Resources that
supply a System Level reference of S0, S1, or S2 are in the OFF state.
Devices states are compatible with the current Power Resource states. Only devices which solely reference Power Resources which are in the ON state for a given device state can be in that device state. In all other cases, the device is in the D3 (off) state.
Devices that are enabled to wake the system and that can do so from their current device state can initiate a hardware event which transitions the system state to S0. This transition causes the processor to begin execution at its boot location. The BIOS performs initialization of core functions as required to exit an S3 state and passes control to the firmware resume vector. Please see the ACPI Specification Rev. 1.0 book section 9.3.2 for more details on BIOS initialization.
From the software point of view, this state is functionally the same as the S2 state. The operational difference can be that some Power Resources that could be left ON in the S2 state might not be available to the S3 state. As such, additional devices can be required to be in logically lower D0, D1, D2, or D3 state for S3 than S2. Similarly, some device wake events can function in S2 but not S3.
Because the processor context can be lost while in the S3 state, the transition to the S3 state requires that the operating software flush all dirty cache to DRAM.
# The information above for system S0 & S3 were referring to ACPI Specification.
USB Dev Wake-Up From S3:
Two options are available: Enabled and Disabled. The default setting is Disabled.
Modem Use IRQ:
You can specify the IRQ for modem use. Eight options are available: NA % 3 % 4 % 5 % 7 % 9 % 10 % 11. The default setting is NA.
Soft-off by PWR-BTTN:
Two options are available: Instant-off and Delay 4 Sec.. The default setting is Instant-off. Pressing the power button for more than four seconds forces the system to enter the Soft-Off state when the system has “hung”.
CPU THRM-Throttling
This option is used during Suspend To RAM (STR) mode. It controls the CPU speed as a percentage of regular power. The options include 87.5%, 75.0%, 62.5%, 50.0%, 37.5%, 25.0%, and 12.5%. The default setting is set at 62.5%.
Wake-Up by PCI card(PME#):
Two options are available: Enabled and Disabled. Default setting is Disabled. This item can let you
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BIOS Setup 3-19
wake-up your computer by PCI devices. For instance, if you had installed a PCI LAN card with Wake-Up on LAN capability, then you could wake-up your computer from another computer via a network by sending a wake-up frame signal. This feature also allows the PCI card built-in hardware function to support the wake up function without special cables connected to the motherboard.
NOTE: This feature needs a specific network interface (optional). Also your ATX power supply +5V standby power must be at least 720mA compatible.
Power On by Ring:
Two options are available: Enabled and Disabled. Default setting is Disabled. If you connect an external modem to the onboard serial port, the system will be turned on when a telephone ring-up occurs.
Resume by Alarm:
Two options are available: Enabled and Disabled. Default setting is Disabled. The RTC alarm can turn on the system. You can set Date (of month) and Time (hour, minute, and second) when you set this item to Enabled.
Green PC LED Status:
This option selects the lighting status of the Suspend mode. The options are: Off and Blinking. The default setting is Blinking.
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3-7. PnP/PCI Configurations
This section describes configuring the PCI bus system. PCI, or Personal Computer Interconnect, is a system which allows I/O devices to operate at speeds nearing the speed the CPU itself uses when communicating with its own special components. This section covers some very technical items and it is strongly recommended that only experienced users should make any changes to the default settings.
Figure 3-9. PnP/PCI Configurations Setup Screen Shot
Force Update ESCD:
If you want to clear ESCD data next time you boot up, and ask the BIOS to reset the settings for the Plug & Play ISA Card and the PCI Card, select Enabled. But the next time you boot up, this option will automatically be set as Disabled.
NOTE: The ESCD (Extended System Configuration Data) contains the IRQ, DMA, I/O port, memory information of the system. This is a specification and a feature specific to the Plug & Play BIOS.
Resources Controlled By:
Two options are available: Auto(ESCD) and Manual. Default setting is Auto(ESCD). When the setting is Auto(ESCD), the IRQ Resources and Memory Resources can not be changed. When resources are controlled manually, the IRQ Resources and Memory Resources can then be changed.
PCI PnP devices compliant with the Plug and Play standard, whether designed for the PCI bus architecture.
The Award Plug and Play BIOS has the capability to automatically configure all of the boot and Plug and Play compatible devices. If you select Auto (ESCD), The IRQ Resources item will be disabled, as the BIOS automatically assigns them. But if you have trouble in assigning the interrupt resources automatically, you can select Manual to set which IRQ is assigned to PCI PnP cards.
Figure 3-10 shows you the screen of IRQ resources. Each item has two options: PCI Device and Reserved. The default setting is PCI Device.
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BIOS Setup 3-21
Figure 3-10. IRQ Resources Setup Screen Shot
PCI/VGA Palette Snoop:
This option allows the BIOS to preview VGA Status, and to modify the information delivered from the Feature Connector of the VGA card to the MPEG Card. This option can solve the display inversion to black after you have used the MPEG card.
Allocate IRQ To VGA :
Two options are available: Disabled or Enabled. The default setting is Enabled. Name the interrupt request (IRQ) line assigned to the USB/VGA/ACPI (if any) on your system. Activity of the selected IRQ always awakens the system.
You can assign an IRQ for the PCI VGA or Disabled.
Allocate IRQ To USB:
Two options are available: Disabled or Enabled. The default setting is Enabled. If you need another IRQ to be freed up, you can choose to disable this item, and you can get an IRQ.
PCI Latency Timer(CLK):
This option selects the controls for the amount of time that the ICH2 arbiter allows a PCI initiator to perform multiple back-to-back transactions on the PCI bus. The options are: 32, 64, 96, 128, 160, 192, 224, and 248 PCI Clocks. The default setting is 32 PCI Clocks.
PIRQ_0 Use IRQ No. ~PIRQ_7 Use IRQ No. :
The options are: Auto, 3, 4, 5, 7, 9, 10, 11, 12, 14, and 15. The default setting is Auto.
This item allows the IRQ number for the device installed on PCI slots to be specified by the system automatically or yiou can specify a fixed IRQ number. This is a useful function when you want to fix the IRQ for a specific device. For example, if you want to move your hard disk to another computer and don’t want to re-install Windows
®
NT, then you can specify the IRQ for the device installed on the new
computer to fit the original computer settings.
This feature is for the operating system that will record and fix the PCI configuration status, if you want to change it.
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For the relations between the hardware layout of PIRQ (the signals from the ICH chipset), INT# (means PCI slot IRQ signals) and devices, please refer to the table below:
Signals AGP
PCI-1 PCI-2 PCI-3 PCI-4 HPT374 USB LAN IEEE1394 PIRQ_0 Assignment INT A INT A INT D INT C INT B PIRQ_1 Assignment INT B INT B INT A INT D INT C INT A PIRQ_2 Assignment INT C INT B INT A INT D INT B PIRQ_3 Assignment INT D INT C INT B INT A INT A PIRQ_4 Assignment INT A PIRQ_5 Assignment INT C PIRQ_6 Assignment INT A PIRQ_7 Assignment
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3-8. PC Health Status
You can set the warning temperature for your computer system, and you can check the fan speeds and power supply voltages of your computer system. The features are useful for monitoring all the important parameters within your computer system. We call it the PC Health Status.
Figure 3-11. PC Health Status Screen Shot
FAN Fail Alarm Selectable:
This item lets you select which one of the fans will be monitored for malfunction. The options are: Disabled % CHAFAN % CPUFAN % PWRFAN % Auto. The default setting is Disabled.
Shutdown When CPU Fan Fail:
This item protects the CPU by shutting the system down if the fan of the option you select is not rotating. The options are: Disabled % Enabled. The default setting is Disabled.
If you select this option as Enabled, the system will be shut down: (1) Immediately when the fan fails in the process of POST. (2) Only when the fan fails in ACPI after the process of POST.
CPU Shutdown Temperature:
Once the system or CPU temperature exceeds the temperature specified, the CPU will shutdown automatically to avoid damaging. This function only works for an ACPI OS such as Windows 2000 with ACPI activated. The options are Disabled, 60°C/140°F, 65°C/149°F, 70°C/158°F, and 75°C/167°F. The default setting is Disabled.
CPU Warning Temperature:
This item lets you select the temperature at which you want the system to send out a warning message to the PC speakers of when the temperature goes beyond either limit. You can select the temperatures you want. The ranges are from 30°C/86°F to 120°C/248°F, default setting is 75
All Voltages, Fans Speed and Thermal Monitoring:
These unchangeable items list the current status of the CPU and environment temperatures, fan speeds, and system power voltage.
°
C/167°F
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NOTE: The hardware monitoring features for temperatures, fans and voltages will occupy the I/O address from 294H to 297H. If you have a network adapter, sound card or other add-on cards that might use those I/O addresses, please adjust your add-on card I/O address to avoid using these addresses.
3-9. Load Fail-Safe Defaults
Figure 3-12. Load Fail-Safe Defaults Screen Shot
When you press <Enter> on this item you get a confirmation dialog box with a message similar to:
Load Fail-Safe Defaults (Y/N) ? N
Pressing “Y” loads the BIOS default values for the most stable, minimal-performance system operations.
3-10. Load Optimized Defaults
Figure 3-13. Load Optimized Defaults Screen Shot
When you press <Enter> on this item you get a confirmation dialog box with a message similar to:
Load Optimized Defaults (Y/N) ? N
Pressing “Y” loads the default values that are factory settings for optimal performance system operations.
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3-11. Set Password
Figure 3-14. Set Password Screen Shot
Set Password: You can enter but do not have the right to change the options of the setup menus. When
you select this function, the following message will appear at the center of the screen to assist you in creating a password.
ENTER PASSWORD:
Type the password, up to eight characters in length, and press <Enter>. The password typed now will clear any previously entered password from CMOS memory. You will be asked to confirm the password. Type the password again and press <Enter>. You may also press <Esc> to abort the selection and not enter a password.
To disable a password, just press <Enter> when you are prompted to enter the password. A message will confirm the password will be disabled. Once the password is disabled, the system will boot and you can enter Setup freely.
PASSWORD DISABLED.
When a password has been enabled, you will be prompted to enter it every time you try to enter Setup. This prevents an unauthorized person from changing any part of your system configuration.
Additionally, when a password is enabled, you can also require the BIOS to request a password every time your system is rebooted. This would prevent unauthorized use of your computer.
Figure 3-15. Password Disabled Screen Shot
You can determine when the password is required within the BIOS Features Setup Menu and its Security option. If the Security option is set to “System”, the password will be required both at boot and at entry to Setup. If it is set to “Setup”, the prompting only occurs when trying to enter Setup.
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3-12. Save & Exit Setup
Figure 3-16. Save & Exit Setup Screen Shot
Pressing <Enter> on this item asks for confirmation:
Save to CMOS and EXIT (Y/N)? Y
Pressing “Y” stores the selections made in the menus in CMOS - a special section of memory that stays on after you turn your system off. The next time you boot your computer, the BIOS configures your system according to the Setup selections stored in CMOS. After saving the values the system is restarted again.
3-13. Exit Without Saving
Figure 3-17. Exit Without Saving Screen Shot
Pressing <Enter> on this item asks for confirmation:
Quit without saving (Y/N)? Y
This allows you to exit Setup without storing in CMOS any change. The previous selections remain in effect. This exits the Setup utility and restarts your computer.
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HPT 374 RAID Setup 4-1
Chapter 4. HPT 374 RAID Setup
4-1. Driver Installation
The installation procedures and screen shots in this chapter are based on Windows XP operating system. Please follow the on-screen instruction for those of other operating system.
Insert the Installation Disk into CD-ROM drive, it should execute the installation program automatically. If not, double-click the execution file at the main directory of this Installation Disk to enter the installation menu.
Click “Continue Anyway” to continue. 3.
2.
Click “HPT 374 Driver”. 1.
Click “N
Click “Finish”. 4.
ext>”.
5. Choose “Yes, I want to restart my computer now”, and click “Finish” to complete
the setup”.
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4-2. RAID Management
The “RAID Management” is an application to provide you with the on-screen monitoring function about the device information of disk array you had installed.
Insert the Installation Disk into CD-ROM drive, it should execute the installation program automatically. If not, execute the execution file at the main directory of this Installation Disk. After it has been executed, the following screen appears:
Click “Y
3.
1. Click “HPT 374 RAID Management”.
es”.
2. Click “N
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ext>”.
ext>”.
Click “N
4.
ext>”.
Click “N
5.
HPT 374 RAID Setup
6. Click “Yes” if you want to add a shortcut to Startup folder.
Click “Finish” to complete the setup. 7.
8. After the system restarted, click “Start” % “Programs” % “HighPoint” % “HighPoint ATA RAID Management Software” to enter this main screen. Click “H
elp” for more detail
on how to run this RAID Management.
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4-3. BIOS Setup for RAID
For further information on RAID concept, you can find it on the “Technological Terms” from our WEB site, or you can search the related information on the Internet.
This motherboard supports the RAID operation of “Striping (RAID 0)”, “Mirroring (RAID 1)”, or “Striping/Mirroring (RAID 0+1)”. For the striping operation, the identical drives can read and write data in parallel to increase system performance. The Mirroring operation creates a complete backup of your files. Striping with Mirroring operation offers both read/write performance and fault tolerance.
After completed the installation of HPT374 driver, you have to enable the RAID function in BIOS setup menu. Enter the “Advanced BIOS Features” in the BIOS setup menu. Change the settings of “First Boot Device”, “Second Boot Device” and “Third Boot Device” to “ATA133RAID”. See the figure below:
NOTE: The option of “SCSI” cannot be worked as a booting device if this “ATA133RAID” had been selected as booting device, and vice versa.
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4-4. BIOS Setting Utility
Main Menu Create Array
Reboot your system. Press <CTRL> and <H> key while booting up the system to enter the BIOS setting menu. The main menu of BIOS Setting Utility appears as shown below:
To select the option in this menu, you may:
Press <F1> to view array status.
Press <↑↓> (up, down arrow) to
choose the option you want to confirm or to modify.
Press <Enter> to confirm the selection.
Press <Esc> to return to top menu.
NOTE: If you want to create a RAID 0 (striping) array or RAID 0+1 array, all the data stored in the hard disks will first be erased! Please backup the hard disk data before starting to create these RAID arrays.
If you want to create a RAID 1 (mirroring) array, please make sure which hard disk is the source disk and which one is the destination disk. If you make a mistake, you may copy the blank data to the source disk, which will result in both hard disks becoming blank!
This item allows you to create a RAID array.
1. Array Mode: This item allows you to select the appropriate RAID mode for the desired array. There are four modes to choose.
NOTE: It is highly recommended to attach hard disks with the same model in reaching the RAID performance.
RAID 0 (Striping) for Performance: This item is recommended for high performance usage. Requires at least 2 disks.
RAID 1 (Mirroring) for Data Protection:
This item is recommended for data security usage. Requires at least 2 disks.
RAID 0/1 (Mirrored Striping): This item is recommended for data security and high performance usage. Allows Mirroring with a Strip Array. Require 4 disks.
JBOD (Volume): This item is recommended for high capacity without redundancy or performance features usage. Requires at least 2 disks.
NOTE: When you choose to create RAID 1, and your source disk is not empty, you have to Duplicate Mirror Disk to copy data to destination disk. Otherwise, it will only copy the partition table to the destination disk, not the physical date.
User’s Manual
4-6 Chapter 4
2. Array Name: This item allows you to give a name of your array by this option.
3. Select Disk Drives: This item allows you to select the disk drives to be used with the array.
4. Block Size: This item allows you to select the block size of the RAID array. The options are: 2M, 1M, 512K, 256K, 128K, 64K, and 32K.
5. Start Creation Process: After you have made your selection, choose this item and press <Enter> to start creation.
Delete Array
This item allows you to remove a RAID Array on this IDE RAID controller.
NOTE: After having made and confirmed this selection, all the data stored in the hard disk will be lost. (The entire partition configuration will be deleted too.)
Create/Delete Spare
To create the spare disk:
1. Select “3. Create/Delete Spare” in the Main Menu, and press <Enter> to confirm.
2. If you are not creating the RAID system yet, screen will show you the warning message, tell you the current system do not create the RAID system. If you choose create the RAID system, then you can select the spare disk you want to create.
3. In the validated channel status zone, select the spare disk to be added and press <Enter> to confirm.
Select Boot Disk
This item allows you to select boot disk among hard disk(s).
To select boot disk mode:
1. Select “4. Select Boot Disk” in the Main Menu, and press <Enter> to confirm.
2. In the Channel Status, select the channel you would like to set as bootable disk and presses <Enter>, an asterisk mark appears in the parentheses to indicate that the channel has been selected.
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Install Intel Chipset Driver A-1
Appendix A. Install Intel Chipset Driver
NOTE: Please install this Intel Chipset Driver before installing VGA and Audio driver.
The installation procedures and screen shots in this chapter are based on Windows XP operating system. Please follow the on-screen instruction for those of other operating system.
Insert the Installation Disk into CD-ROM drive, it should execute the installation program automatically. If not, double-click the execution file at the main directory of this Installation Disk to enter the installation menu.
Click “Y
3.
es”.
1. Click “Intel Chipset Driver”.
2. Click “N
ext>”.
ext>”.
Click “N
4.
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A-2 Appendix A
5. Choose “Yes, I want to restart my computer now”, and click “Finish” to end the
installation.
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Install Intel Application Accelerator B-1
Appendix B. Install Intel Application Accelerator
NOTE: Please make sure to install the “Intel Chipset Driver” first and to reboot the system before installing this “Intel Application Accelerator”.
The installation procedures and screen shots in this chapter are based on Windows XP operating system. Please follow the on-screen instruction for those of other operating system.
Insert the Installation Disk into CD-ROM drive, it should execute the installation program automatically. If not, double-click the execution file at the main directory of this Installation Disk to enter the installation menu.
Click “Y
3.
es”.
1. Click “Intel Application Accelerator”.
2. Click “N
ext>”.
Click “N
4.
ext>”.
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B-2 Appendix B
Click “N
5.
6. Choose “Yes, I want to restart my computer now”, and click “Finish” to end the
installation.
ext>”.
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Install Audio Driver C-1
Appendix C. Install Audio Driver
The installation procedures and screen shots in this chapter are based on Windows XP operating system. Please follow the on-screen instruction for those of other operating system.
Insert the Installation Disk into CD-ROM drive, it should execute the installation program automatically. If not, double-click the execution file at the main directory of this Installation Disk to enter the installation menu.
3. This is warning information. Click
Continue Anyway” to continue.
1. Click “AC97 Audio Driver”.
2. Click “N
4. Choose “Yes, I want to restart my
computer now”, and click “Finish” to end the
installation.
ext>”.
5. After the system restarted, a shortcut icon
appears at the right corner of Windows task bar.
User’s Manual
C-2 Appendix C
6. Another way to enter the Sound Effect Manager is by clicking Start % Control Panel, and then double click this Sound Effect Manage icon.
7. In this Speaker Configuration tab, check the “6 channels mode for 5.1 speakers output” box to enable 6-channel audio system.
Note: To keep a normal operation of 5.1 speakers output, please do not change the settings of “Line In” and “Mic In” in this menu.
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Install VIA USB 2.0 Driver D-1
Appendix D. Install VIA USB 2.0 Driver
The installation procedures and screen shots in this chapter are based on Windows XP operating system. Please follow the on-screen instruction for those of other operating system.
Insert the Installation Disk into CD-ROM drive, it should execute the installation program automatically. If not, double-click the execution file at the main directory of this Installation Disk to enter the installation menu.
ext>”.
Click “N
3.
1. Click “VIA USB 2.0 Driver”.
2. Click “N
4. This is warning information. Click
Continue Anyway” to continue.
ext>”.
Click “Finish”. 5.
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D-2 Appendix D
ext>”.
Click “N
6.
7. This is warning information. Click
Continue Anyway” to continue.
Click “Finish” to complete the setup. 8.
For Intel ICH4 USB 2.0 Driver:
Please look into our Web site at
http://www.abit.com.tw/abitweb/webjsp/english/faqs/ich4usb2.htm for the formal
driver release.
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Install LAN Driver E-1
Appendix E. Install LAN Driver
The installation procedures and screen shots in this chapter are based on Windows XP operating system. Please follow the on-screen instruction for those of other operating system.
Insert the Installation Disk into CD-ROM drive, it should execute the installation program automatically. If not, double-click the execution file at the main directory of this Installation Disk to enter the installation menu.
Click “Finish” to end the installation. 3.
1. Click “LAN Driver”.
2. Click “N
ext>”.
User’s Manual
E-2 Appendix E
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BIOS Update Guide F-1
Appendix F. BIOS Update Guide
The procedure illustrated here is based on the model SE6 as an example; all other models follow the same process.
1. First, find out the model name and version number of this motherboard. You can find a sticker with
model name and version number on one slot or at the back of the motherboard.
2. Find out the current BIOS ID.
For example, in this case, the current BIOS ID is “00”. If you already have the latest BIOS, no any update action is necessary. If your BIOS is not the latest BIOS, go on to the next step.
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F-2 Appendix F
3. Download the correct BIOS file from our Web site.
Go to our Web site and choose the correct BIOS file and download it.
4. Double click the download file, it will self-extract to .bin file.
5. Make a bootable floppy disk and copy the necessary files onto it.
You may make a floppy disk bootable either in Explorer or in the DOS prompt mode.
After formatting and transferring the system to the floppy disk, copy two files into it. One is the BIOS flash utility “awdflash.exe” and the other is the decompressed BIOS binary file.
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BIOS Update Guide F-3
6. Boot off floppy disk.
Please set the first boot sequence as “floppy” in BIOS and boot off the floppy disk.
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F-4 Appendix F
7. Flash the BIOS in pure DOS mode.
After successfully booting off of the floppy, execute the flash utility according to these instructions.
Note
We strongly recommend you use the above parameters following ‘awdflash’ to flash your BIOS.
DO NOT just type “awdflash se6_sw.bin” without the above parameters following the “.bin” file.
The Award flash utility cannot be completed under the Windows
®
environment. It must be
done in a pure DOS environment.
You should check which BIOS file is to be used with your motherboard, don't flash with the wrong BIOS file. Otherwise, it may cause system malfunctions.
Please do not use the Award flash memory writer version earlier than Version 7.52C to flash the BIOS. Otherwise, it may cause flash fail or un-anticipated problems.
During the updating, the progress will be measured by white blocks. The last four blue blocks of the flash update process represent the “BIOS boot block”. The BIOS boot block is used to prevent the BIOS from becoming corrupt during programming. It should not be programmed every time. If this “BIOS boot block” remains intact when the BIOS becomes corrupt during programming, then you can boot from a bootable floppy next time you boot your computer. This allows you to flash your BIOS again without the need for technical support from the dealer.
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Hardware Monitoring (The Winbond Hardware Doctor Utility) G-1
Appendix G. Hardware Monitoring (The Winbond
Hardware Doctor Utility)
The Winbond Hardware Doctor is a self-diagnostic system for PCs used with Winbond W83627HF chipset. It protects PC hardware by monitoring several critical items including power supply voltages, CPU & system fan speeds and CPU and system temperatures. These items are important for the system operation. Errors may result in permanent damage to the PC. Once any item is out of its normal range, a warning message pops up reminding you to take proper measures.
The installation procedures and screen shots in this chapter are based on Windows XP operating system. Please follow the on-screen instruction for those of other operating system.
Insert the Installation Disk into CD-ROM drive, it should execute the installation program automatically. If not, double-click the execution file at the main directory of this Installation Disk to enter the installation menu.
Click “N
3.
ext >”.
Click “Utility”. 1.
Click “N
4.
Click “Winbond Hardware Doctor”. 2.
ext >”.
User’s Manual
G-2 Appendix G
Click “N
5.
ext >”.
8. Execute the Hardware Doctor by entering
the Windows Menu “Start” % “Programs” % Winbond%Hardware Doctor”.
Click “N
6.
ext >”.
7. Choose “Yes, I want to restart my computer now”, and then click “Finish” to
complete the setup.
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9. This screen appears. Hardware Doctor shows you the status of Voltage, Fan Speed, and Temperature readings as well. If any reading is critical or over its limitation, the reading turns red. Also, a pop-up window appears warning you the system has a problem!
Hardware Monitoring (The Winbond Hardware Doctor Utility) G-3
This is the warning message window: 10.
Ignore: You can ignore the warning message of
the item, but it will pop up again when an error of the same item reoccurs.
Disable: The chosen item will be no longer monitored thereafter, unless you activate it in the “Configuration” page.
Shutdown: Choosing this button will shutdown the computer.
Help: You can read more information and self-diagnose simple problems.
If the warning message pops up due to the wrong warning limit, you can adjust it in the “C
onfiguration” option. For example, if you set the temperature high limit to 40°C, you will easily exceed the “proper” temperature.
Pay attention to two things when you want to make any change to the “C
onfiguration” option. Firstly, you have to make sure your new setting is in the proper range. Secondly, after you finished the configuration, you have to save it. Otherwise, the program will start with the default value next time.
If you encounter any problem or have any question about the software settings and adjustments, please use the Winbond hardware doctor on-line help. It should give you enough information to answer your questions.
User’s Manual
G-4 Appendix G
IT7-MAX2
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