Operation Manual
Table Of Contents
- AOpen i865 Family Motherboards
- What's in this manual
- You Must Notice
- Before You Start
- Overview
- AOpen i865 Family Motherboards Comparison Table
- Feature Highlight
- CPU
- Chipset
- Memory
- Expansion Slots
- AGP Protection Technology
- Hyper-Threading Technology
- Watch Dog ABS
- 1MHz Stepping CPU Frequency Adjustment
- LAN Port (for-UL and -UN series)
- Ultra DMA 33/66/100 Bus IDE
- Serial ATA
- On-board AC’97 Sound
- Eight USB 2.0 Ports
- S/PDIF Connector
- Power Management/Plug and Play
- Hardware Monitoring Management
- Enhanced ACPI
- Quick Installation Procedure
- Motherboard Map
- Block Diagram
- Hardware Installation
- About" User Upgrade Optional" and "Manufacture Upgrade Optional"...
- EzColor
- JP14 Clear CMOS Data
- CPU Installation
- CPU Fan Installation
- CPU Over-current Protection
- AOpen "Watch Dog ABS"
- Full-range Adjustable CPU Core Voltage
- CPU and System Fan Connector (with H/W Monitoring)
- JP28 Keyboard/Mouse Wake-up Jumper
- DIMM Sockets
- ATX Power Connector
- AC Power Auto Recovery
- IDE and Floppy Connector
- Serial ATA Supported
- Connecting Serial ATA Disk
- Front Panel Connector
- AGP (Accelerated Graphic Port) 8X Expansion Slot
- AGP Protection Technology and AGP LED
- IrDA Connector
- Support 10/100/1000 Mbps LAN onboard
- Support USB 2.0 Ports
- Color Coded Back Panel
- S/PDIF (Sony/Philips Digital Interface) Connector
- Super 5.1 Channel Audio Effect
- Wake On Modem / Wake On LAN / Wake On PCI Card
- Front Audio Connector
- Game Port Bracket Supported
- COM2 Connector
- CD Audio Connector
- AUX-IN Connector
- Case Open Connector
- STBY LED (Standby LED) and BOOT LED
- Resetable Fuse
- Enlarged Aluminum Heatsink
- Low ESR Capacitor
- PBE – Performance Boosting Engine \(for AX4SG an
- The noise is gone!! ---- SilentTek
- EzClock
- Hyper Threading Technology
- AOConfig Utility
- Phoenix-AWARD BIOS
- Driver and Utility
- Auto-run Menu from Bonus CD
- Installing Intel? Chipset Software Installation Utility
- Installing Intel Extreme Graphic Driver (only for AX4SG-U, AX4SG-UL and AX4SG-UN)
- Installing Onboard Sound Driver
- Installing Gigabit LAN Driver (for AX4SG-UL, AX4SPE-UL and AX4SPB-UL)
- Installing Realtek 10/100 Mbps LAN Driver in Win98SE/2000/XP (for AX4SG-UN, AX4SPE-UN and AX4SPB-UN)
- Installing USB 2.0 Driver in Windows 98SE/ME
- Glossary
- AC’97 CODEC
- ACPI (Advanced Configuration & Power Interface)
- ACR (Advanced Communication Riser)
- AGP (Accelerated Graphic Port)
- AMR (Audio/Modem Riser)
- ATA (AT Attachment)
- BIOS (Basic Input/Output System)
- Bluetooth
- CNR (Communication and Networking Riser)
- DDR (Double Data Rate) SDRAM
- ECC (Error Checking and Correction)
- EEPROM (Electronic Erasable Programmable ROM)
- EPROM (Erasable Programmable ROM)
- EV6 Bus
- FCC DoC (Declaration of Conformity)
- FC-PGA (Flip Chip-Pin Grid Array)
- FC-PGA2 (Flip Chip-Pin Grid Array)
- Flash ROM
- Hyper Threading
- IEEE 1394
- Parity Bit
- PCI (Peripheral Component Interface) Bus
- PDF Format
- PnP (Plug and Play)
- POST (Power-On Self Test)
- PSB (Processor System Bus) Clock
- RDRAM (Rambus Dynamic Random Access Memory)
- RIMM (Rambus Inline Memory Module)
- SDRAM (Synchronous DRAM)
- SATA (Serial ATA)
- SMBus (System Management Bus)
- SPD (Serial Presence Detect)
- USB 2.0 (Universal Serial Bus)
- VCM (Virtual Channel Memory)
- Wireless LAN – 802.11b
- ZIP file
- Troubleshooting
- Technical Support
- Product Registration
- How to Contact Us
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What is Hyper-Threading?
Hyper-Threading technology is an innovative design from Intel that enables multi-threaded software applications to process threads in
parallel within each processor resulting in increased utilization of processor execution resources. As a result, an average improvement
of ~40% in CPU resource utilization yields higher processing throughput.
How Hyper-Threading Works
A form of simultaneous multi-threading technology (SMT), Hyper-Threading technology allows multiple threads of software applications
to be run simultaneously on one processor by duplicating the architectural state on each processor while the same processor execution
resources is shared. The figure below
represents how a Hyper-Threading based
processor differentiates a traditional
multiprocessor. The left-hand configuration
shows a traditional multiprocessor system
with two physical processors. Each
processor has its own independent
execution resources and architectural state.
The right-hand configuration represents an
Intel Hyper-Threading technology based
processor. You can see that the architectural
state for each processor is duplicated, while
the execution resources is shared.