HP 226824-001 - ProLiant - ML750 Panduan Pengenalan - Halaman 16

Jelajahi secara online atau unduh pdf Panduan Pengenalan untuk Desktop HP 226824-001 - ProLiant - ML750. HP 226824-001 - ProLiant - ML750 22 halaman. Visualization and acceleration in hp proliant servers
Juga untuk HP 226824-001 - ProLiant - ML750: Pertanyaan yang Sering Diajukan (4 halaman), Panduan Pelaksanaan (35 halaman), Buku Putih Teknis (12 halaman), Pembaruan Firmware (9 halaman), Ikhtisar (20 halaman), Panduan Pelaksanaan (26 halaman), Panduan Pemecahan Masalah (18 halaman), Panduan Pelaksanaan (11 halaman), Panduan Instalasi (2 halaman), Panduan Konfigurasi (2 halaman), Panduan Pengenalan (19 halaman), Manual Pembaruan (9 halaman), Manual Pembaruan (16 halaman), Panduan Pengenalan (12 halaman), Panduan Pengenalan (10 halaman), Ringkasan Teknologi (9 halaman)

HP 226824-001 - ProLiant - ML750 Panduan Pengenalan
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.
16