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Intel Microarchitecture Nehalem
Figure 10.
Intel
QuickPath Technology
®
Intel QuickPath Technology maximizes data transfer between the processors and other system
components. It replaces the multi-drop front-side bus and memory controller hub found in previous
generation architectures with high-speed, point-to-point interconnects that directly link the processors
and I/O chipset (Figure 11). Each QPI consists of two unidirectional links that operate simultaneously
in each direction using differential signaling. Unlike a typical serial bus, the QPI transmits data
packets in parallel across multiple lanes, and the packets are broken into multiple parallel transfers.
Each link is comprised of twenty 1-bit lanes. A maximum of 16 bits (2 bytes) are used to transfer data
and the remaining 4 bits are used for the protocol and error correction. Initially, the QPI performs a
maximum of 6.4 gigatransfers per second (GT/s) with 2 bytes per transfer, or 12.8-GB/s in each
direction for a total theoretical bandwidth of 25.6 GB/s.
Reliability, Availability, and Serviceability (RAS features) of the QPI include self-healing links and
clock fail-over. Each link has twenty 1-bit lanes that are grouped into quadrants with 5 lanes each. If
a persistent (hard) error occurs in one quadrant, the link automatically reduces its width to half (2
quadrants) or quarter-width (1 quadrant) using only the good lanes. This self-healing capability allows
the interconnect to recover from multiple hard errors without data loss. Unrecoverable soft errors
initiate a dynamic link width reduction cycle. If the clock fails, the link is reduced to half- or quarter-
width and the clock is mapped to a pre-determined data lane. The bandwidth of the link in RAS mode
is reduced; however, the link in the other direction can still operate normally.
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