Award BIOS Setup

3.7 Integrated Peripherals

CMOS Setup Utility – Copyright © 1984 – 2001 Award Software

Integrated Peripherals

On-Chip Primary PCI IDE

Enabled

 

On-Chip Secondary PCI IDE

Enabled

 

IDE Primary Master PIO

Auto

IDE Primary Slave PIO

Auto

IDE Secondary Master PIO

Auto

IDE Secondary Slave PIO

Auto

IDE Primary Master UDMA

Auto

IDE Primary Slave UDMA

Auto

IDE Secondary Master UDMA

Auto

IDE Secondary Slave UDMA

Auto

USB Controller

Enabled

USB Keyboard Support

Disabled

Init Display First

PCI Slot

IDE HDD Block Mode

Enabled

KBC Input Clock

8 MHz

Onboard FDC Controller

Enabled

Onboard Serial Port 1

3F8/IRQ4

Onboard Serial Port 2

2F8/IRQ3

UART Mode Select

Normal

X RxD, TxD Active

Hi, Lo

X IR Transmission Delay

Enabled

X UR2 Duplex Mode

Half

X Use IR Pins

IR-Rx2Tx2

Onboard Parallel Port

378/IRQ7

Parallel Port Mode

SPP

X EPP Mode Select

EPP1.7

X ECP Mode Use DMA

3

 

PWRON After PWR-Fail

Off

Item Help

____________________________

Menu Level ¾

If your IDE hard drive supports block mode select Enabled for automatic detection of the optimal number of block read/write per sector the drive can support

↑↓←→Move Enter: Select +/-/PU/PD: Value

F10: Save ESC: Exit F1: General Help

F5: Previous Values F6: Fail-safe defaults

F7: Optimized Defaults

OnChip Primary/Secondary PCI IDE:

The integrated peripheral controller contains an IDE interface with support for two IDE channels. Select “Enabled” to activate each channel separately.

The choice: Enabled, Disabled.

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Image 49
Sun Microsystems F815D/V manual OnChip Primary/Secondary PCI IDE, Spp

F815D, F815D/V specifications

Sun Microsystems F815D and F815D/V are high-performance workstation graphics cards designed to deliver exceptional graphical capabilities for demanding applications. Initially released as part of Sun's high-end workstation offerings, these graphics cards catered specifically to users in fields such as engineering, scientific research, and computer-aided design (CAD).

One of the key features of the F815D is its advanced 3D graphics capabilities. The architecture is based on the powerful Creator 3D technology, which enables realistic rendering of complex three-dimensional graphics. This makes the F815D particularly suitable for applications that require high precision and detail. The graphics card can handle extensive textures and polygons, making it ideal for multimedia content creation or high-end visual simulations.

The F815D/V variant is an enhanced version of the original F815D and supports additional features such as improved color depth and enhanced video playback capabilities. This variant caters to users who require exceptional visual fidelity and higher frame rates, particularly in video editing and graphic-intensive tasks.

Another notable characteristic of the F815D series is its multi-display support. Users can connect multiple monitors to the workstation, allowing for immersive workflows and improved productivity. This feature is especially beneficial for professionals who rely on extensive data analysis or those who need to visualize complex information across several screens simultaneously.

The F815D and F815D/V are also equipped with advanced rendering technologies, such as texture mapping and anti-aliasing, which contribute to smoother visuals and eliminate jagged edges in graphics. The inclusion of hardware-accelerated rendering capabilities ensures that the workstation can handle real-time graphics processing, which is crucial for interactive applications and high-resolution gaming.

In addition to its strong graphical capabilities, the F815D series maintains compatibility with Solaris and other UNIX-based operating systems, making it a preferred choice among enterprise users. This compatibility allows organizations to build robust server and workstation environments while leveraging the power of the F815D graphics technology.

Overall, Sun Microsystems F815D and F815D/V graphics cards represent a significant leap in workstation graphics technology. With their combination of advanced rendering capabilities, multi-display support, and robustness, they continue to play a vital role in high-performance computing environments. They are well-suited for anyone looking to push the boundaries of graphical performance in their professional computing tasks.