The Aspire T671 is designed from the bottom up to offer a competitive richly featured Vista Home Premium solution. Supporting CPUs from Intel® Celeron up to Intel® Core™2 Duo processors combined with an industry leading standard of integrated graphics as well as dual channel memory support, the T671 is a Premium winner.
Acer - Acer Aspire series PC T671-19
Ethernet/Fast Ethernet/Gigabit Ethernet
482.6 mm (19 ")
Aspire series PC
Weight & dimensions
Height of the product
List of types of chassis available and their expandability if applicable. 1 unit (1U) is 1.75 inches (4.45 cm).
Hi-definition audio (7.1)
Ports & interfaces
USB 2.0 ports quantity
USB 2.0 ports have a data transmission speed of 480 Mbps, and are backwards compatible with USB 1.1 ports. You can connect all kinds of peripheral devices to them.
VGA (D-Sub) ports quantity
PS/2 ports quantity
The number of PS/2 connectors for keyboards and mice. Its name comes from the IBM Personal System/2.
Graphics memory is determining with the (graphic) processor, the graphics/video performance of your computer. Graphics memory is often shared with system memory so that it varies depending on the amount of system memory installed and system load.
Optical drive type
Type of the optical drive
Total storage capacity
Total storage capacity in Gigabyte (1 billion bytes).
Hard drive interface
Hard drive rotational speed
The rotational speed of a hard disk expressed in rotations per minute. The faster the better.
Internal memory type
Maximum internal memory
Processor clock speed
The processor serie to which the processor belongs.
Intel Pentium D
Processor is the central unit in a computer containing the logic circuitry that performs the instructions of a computer's programs.
The CPU cache (Level 2 in megabyte) is a smaller, faster memory which stores copies of the data from the most frequently used main memory locations.
Processor front side bus
Speed of the processor's Front Side Bus (FSB) in megahertz (1 million Herz). The FSB is the bus that transfers data between the CPU and the northbridge of the Motherboard. The maximum theoretical bandwidth of the FSB is determined by the product of its width, its clock frequency and the number of data transfers it performs per clock tick.