Intel i5-2500 BX80623I52500 用户手册
产品代码
BX80623I52500
Datasheet, Volume 1
23
Interfaces
2.1.5.2
Command Overlap
Command Overlap allows the insertion of the DRAM commands between the Activate,
Precharge, and Read/Write commands normally used, as long as the inserted
commands do not affect the currently executing command. Multiple commands can be
issued in an overlapping manner, increasing the efficiency of system memory protocol.
Precharge, and Read/Write commands normally used, as long as the inserted
commands do not affect the currently executing command. Multiple commands can be
issued in an overlapping manner, increasing the efficiency of system memory protocol.
2.1.5.3
Out-of-Order Scheduling
While leveraging the Just-in-Time Scheduling and Command Overlap enhancements,
the IMC continuously monitors pending requests to system memory for the best use of
bandwidth and reduction of latency. If there are multiple requests to the same open
page, these requests would be launched in a back to back manner to make optimum
use of the open memory page. This ability to reorder requests on the fly allows the IMC
to further reduce latency and increase bandwidth efficiency.
the IMC continuously monitors pending requests to system memory for the best use of
bandwidth and reduction of latency. If there are multiple requests to the same open
page, these requests would be launched in a back to back manner to make optimum
use of the open memory page. This ability to reorder requests on the fly allows the IMC
to further reduce latency and increase bandwidth efficiency.
2.1.6
Memory Type Range Registers (MTRRs) Enhancement
The processor has 2 additional MTRRs (total 10 MTRRs). These additional MTRRs are
specially important in supporting larger system memory beyond 4 GB.
specially important in supporting larger system memory beyond 4 GB.
2.1.7
Data Scrambling
The memory controller incorporates a DDR3 Data Scrambling feature to minimize the
impact of excessive di/dt on the platform DDR3 VRs due to successive 1s and 0s on the
data bus. Past experience has demonstrated that traffic on the data bus is not random
and can have energy concentrated at specific spectral harmonics creating high di/dt
that is generally limited by data patterns that excite resonance between the package
inductance and on-die capacitances. As a result, the memory controller uses a data
scrambling feature to create pseudo-random patterns on the DDR3 data bus to reduce
the impact of any excessive di/dt.
impact of excessive di/dt on the platform DDR3 VRs due to successive 1s and 0s on the
data bus. Past experience has demonstrated that traffic on the data bus is not random
and can have energy concentrated at specific spectral harmonics creating high di/dt
that is generally limited by data patterns that excite resonance between the package
inductance and on-die capacitances. As a result, the memory controller uses a data
scrambling feature to create pseudo-random patterns on the DDR3 data bus to reduce
the impact of any excessive di/dt.