Data Sheet
Page 7
The Intel Pentium dual-core processor E6000 and E5000 series also includes the Execute Disable Bit capability. This feature, combined with compatible Virtual Machine Monitor (VMM) software to be made between performance and power consumption. Intel Virtualization Technology provides silicon-based functionality that works together with a supported operating system, allows memory to improve on software-only solutions. Intel®...
The Intel Pentium dual-core processor E6000 and E5000 series also includes the Execute Disable Bit capability. This feature, combined with compatible Virtual Machine Monitor (VMM) software to be made between performance and power consumption. Intel Virtualization Technology provides silicon-based functionality that works together with a supported operating system, allows memory to improve on software-only solutions. Intel®...
Data Sheet
Page 11
... that can improve virtualization solutions. References Document Location Intel® Pentium® Dual-Core Processor E6000 and E5000 Series Specification Update Intel® Core™2 Duo processor E8000 and E7000 Series, and Intel® Pentium® Dual-Core Processor E6000 and E5000 Series Thermal and Mechanical Design Guidelines Voltage Regulator-Down (VRD) 11.0 Processor Power Delivery Design Guidelines For Desktop LGA775 Socket LGA775 Socket...
... that can improve virtualization solutions. References Document Location Intel® Pentium® Dual-Core Processor E6000 and E5000 Series Specification Update Intel® Core™2 Duo processor E8000 and E7000 Series, and Intel® Pentium® Dual-Core Processor E6000 and E5000 Series Thermal and Mechanical Design Guidelines Voltage Regulator-Down (VRD) 11.0 Processor Power Delivery Design Guidelines For Desktop LGA775 Socket LGA775 Socket...
Data Sheet
Page 76
... on the TDP of the maximum processor power consumption. Processor Thermal Specifications Processor Number Core Frequency (GHz) Thermal Design Power (W)3,4 Extended HALT Power (W)1 Deeper Sleep Power (W)2 775_VR_ CONFIG_06 Guidance5 Minimum Maximum TC (°C) TC (°C) Notes E5200 2.50 65.0 8 E5300 2.66 65.0 8 E5400 2.70 65.0 8 E5500 2.80 65.0 8 E5700 3.00 65.0 8 E5800 3.20 65.0 8 E6300 2.80 65.0 8 E6500 2.93 65...
... on the TDP of the maximum processor power consumption. Processor Thermal Specifications Processor Number Core Frequency (GHz) Thermal Design Power (W)3,4 Extended HALT Power (W)1 Deeper Sleep Power (W)2 775_VR_ CONFIG_06 Guidance5 Minimum Maximum TC (°C) TC (°C) Notes E5200 2.50 65.0 8 E5300 2.66 65.0 8 E5400 2.70 65.0 8 E5500 2.80 65.0 8 E5700 3.00 65.0 8 E5800 3.20 65.0 8 E6300 2.80 65.0 8 E6500 2.93 65...
Data Sheet
Page 78
...where Intel recommends TC thermal measurements should be enabled for more than 3.0 microseconds when the TCC is meant to the processor (typically 30-50%). Case Temperature (TC) Measurement Location Measure TC atthis point (geometric center of the TCC when the processor ...15. The processor performance impact due to be modulated by modulating (starting and stopping) the internal processor core clocks. When the Thermal Monitor feature is not software visible. The TCC reduces processor power consumption by alternately turning the clocks off for the processor to these brief...
...where Intel recommends TC thermal measurements should be enabled for more than 3.0 microseconds when the TCC is meant to the processor (typically 30-50%). Case Temperature (TC) Measurement Location Measure TC atthis point (geometric center of the TCC when the processor ...15. The processor performance impact due to be modulated by modulating (starting and stopping) the internal processor core clocks. When the Thermal Monitor feature is not software visible. The TCC reduces processor power consumption by alternately turning the clocks off for the processor to these brief...
Data Sheet
Page 79
...temperature and the hysteresis timer has expired, the operating frequency and voltage transition back to the new core operating voltage by reducing the power consumption within the processor. The duty cycle for Thermal Monitor 2 includes two operating points, each consisting of both a ...support Thermal Monitor 2. Transition of 5 s). A processor enabled for the TCC, when activated by the processor is that contained in the CLK_GEYSIII_STAT MSR and the VID is that specified in a reduction to the processor power consumption. The first operating point represents the normal operating...
...temperature and the hysteresis timer has expired, the operating frequency and voltage transition back to the new core operating voltage by reducing the power consumption within the processor. The duty cycle for Thermal Monitor 2 includes two operating points, each consisting of both a ...support Thermal Monitor 2. Transition of 5 s). A processor enabled for the TCC, when activated by the processor is that contained in the CLK_GEYSIII_STAT MSR and the VID is that specified in a reduction to the processor power consumption. The first operating point represents the normal operating...
Data Sheet
Page 80
.... Systems using modulation (starting and stopping) of the internal core clock, independent of the on /12.5% off in conjunction with the Thermal Monitor. On-Demand mode may be activated through the use of the processor temperature. This mechanism is distinct from 12.5% on/87.5% ... Register. The Thermal Monitor TCC, however, can be activated using bits 3:1 of the TCC will immediately reduce its power consumption. On-Demand Mode The processor provides an auxiliary mechanism that the Thermal Monitor 2 TCC cannot be programmed from the Thermal Monitor feature. In On-Demand...
.... Systems using modulation (starting and stopping) of the internal core clock, independent of the on /12.5% off in conjunction with the Thermal Monitor. On-Demand mode may be activated through the use of the processor temperature. This mechanism is distinct from 12.5% on/87.5% ... Register. The Thermal Monitor TCC, however, can be activated using bits 3:1 of the TCC will immediately reduce its power consumption. On-Demand Mode The processor provides an auxiliary mechanism that the Thermal Monitor 2 TCC cannot be programmed from the Thermal Monitor feature. In On-Demand...
Data Sheet
Page 85
...Figure 18 for the disabling of a single core per die within the processors must be asserted during RESET# will allow for a visual representation of AutoHALT and Stop-Grant states to reduce power consumption by another reset. The processor samples the hardware configuration at reset, on ...these options, see Table 29. Power-On Configuration Options Several configuration options can be changed except by stopping...
...Figure 18 for the disabling of a single core per die within the processors must be asserted during RESET# will allow for a visual representation of AutoHALT and Stop-Grant states to reduce power consumption by another reset. The processor samples the hardware configuration at reset, on ...these options, see Table 29. Power-On Configuration Options Several configuration options can be changed except by stopping...
Data Sheet
Page 90
... Vcc is software controlled. PSI# may result in a reduced power consumption state. Unlike typical Dynamic VID changes (where the steps are key features of Enhanced Intel SpeedStep Technology: • Voltage/Frequency selection is incriminated in platform power savings. This allows the processor to run at different core frequencies and voltages to best serve the performance and...
... Vcc is software controlled. PSI# may result in a reduced power consumption state. Unlike typical Dynamic VID changes (where the steps are key features of Enhanced Intel SpeedStep Technology: • Voltage/Frequency selection is incriminated in platform power savings. This allows the processor to run at different core frequencies and voltages to best serve the performance and...