Search results
Results from the WOW.Com Content Network
Running with very low average power consumption and much lower heat output than desktop processors, the Pentium M runs at a lower clock speed than the laptop version of the Pentium 4 (the Pentium 4-Mobile, or P4-M), but with similar performance – a 1.6 GHz Pentium M can typically attain or even surpass the performance of a 2.4 GHz Pentium 4-M ...
This is a list of Intel Pentium M processors. They are all single-core 32-bit CPUs codenamed Banias and Dothan , and targeted at the consumer market of mobile computers. Mobile processors
Unfortunately, the introduction of PCI Express and faster Pentium M processors causes laptops built around the Sonoma platform to have a shorter battery-life than their Carmel counterparts; Sonoma laptops typically achieve between 3.5–4.6 hours of battery-life on a 53 W-h battery.
1.06 GHz – 2.33 GHz Socket M: 65 nm 5.5 W – 49 W 1 or 2 533 MHz, 667 MHz 64 KiB per core 2 MiB N/A Intel Core 2: Uxxxx Lxxxx Exxxx Txxxx P7xxx Xxxxx Qxxxx QXxxxx Allendale Conroe Merom Penryn Kentsfield Wolfdale Yorkfield: 2006–2011 1.06 GHz – 3.33 GHz Socket 775 Socket M Socket P Socket J Socket T: 45 nm, 65 nm 5.5 W – 150 W 1, 2 or 4
It featured an Intel Pentium M processor in speeds ranging from 1.2 to 1.6 GHz in either Ultra Low Voltage (1.2 GHz) or Low Voltage (1.3 GHz and up), depending on mark of laptop. The laptop featured Intel Centrino technology for power saving ability. The Mark 1, 2 and 3 used DDR RAM and the Mark 4 and 5 used DDR2.
Pentium Centrino may refer to: Pentium M, the Intel microprocessor; Centrino, the combination of Intel Pentium M, 855 and PRO/Wireless chipsets
Penryn is the code name of a mobile processor from Intel that is sold in varying configurations such as Core 2 Solo, Core 2 Duo, Core 2 Quad, Pentium and Celeron. During development, Penryn was the Intel code name for the 2007/2008 "Tick" of Intel's Tick-Tock cycle which shrunk Merom to 45 nanometers as CPUID model 23.
For example, for a 1.6 GHz Pentium M, the clock frequency can be stepped down in 200 MHz decrements over the range from 1.6 to 0.6 GHz. At the same time, the voltage requirement decreases from 1.484 to 0.956 V. The result is that the power consumption theoretically goes down by a factor of 6.4.