FIC har nye bundkort...

Diverse d.  13. maj. 2003, skrevet af The Boss 0 Kommentarer.  Vist: 537 gange.

Taipei 13 May 2003- First International Computer, Inc. (FIC) is pleased to announce the launch of a brand new SiS based motherboard solution for AMD? Barton processors with 400MHz FSB. The new KT-748 motherboard boasts a plethora of on-board features and the usual high quality FIC customers have come to expect.



A spokesman representing the FIC Networking and Information Group commented, ?FIC is keen to provide a comprehensive range of motherboard solutions supporting all the available chipset and processor technology. The new SiS based KT-748 motherboard is a powerful AMD processor based system that makes full use of the advanced chipset features?.



Advanced features include a front side bus (FSB) frequency of up to 400MHz, support for up to 3GB of DDR SDRAM, Ultra DMA ATA 66/100/133, on-board 5.1 channel audio, on-board LAN interface, USB 2.0 support and optional IEEE1394 ports. The KT-748 also supports suspend to RAM, RTC alarm, wake on ring, auto power failure recovery, hardware based intelligent anti virus protection, HW monitoring and Hard Disk fault protection. Like all FIC motherboard solution, the KT-748 comes with a full collection of Novus utilities.



The FIC commitment to provide support for AMD processors is as strong as ever. The KT-748 is the latest in a long line of AMD processor based solutions from FIC.



Spec

- ATX form factor (12? x 8.8?) motherboard for AMD Athlon and Duron series processors

- 200/266/333/400 MHz system data bus

- SiS 748 North Bridge, SiS 963/963L South Bridge

- Support for up to 3GB DDR SDRAM memory

- ATA 66/100/133 support

- 1 AGP 8X slot, 5 PCI slots

- Realtek ALC650 5.1 channel audio

- RealTek 8100C on-board 10/100 LAN

- RealTek 8110S Gb LAN

- Support for wake on ring

- Support for IEEE 1394 (option) and USB 2.0

- Parallel port and 2 serial ports

- PS2 mouse and keyboard support

- Auto power failure recovery, ACPI ready (STD), Suspend to RAM, H/W monitoring