Intel® Pentium® Processors Discover new computers with amazing value powered by an Intel® Pentium® processor—from sleek laptops, 2 in 1s, and mini PCs, to stylish desktop PCs with great battery life, and performance for common applications so you can chat, shop, or surf in style. The only AMD processor that's slower than an Intel CPU is the Athlon 64 X2 3800+, but even that CPU manages to outpace Intel's lower-end dual-core chips, the Pentium D 830 and the Pentium D 820. Intel® Core™ 2 Duo, Intel® Pentium® Dual-Core, Thermal Design Intel® Core™ 2 Duo Desktop Processor, Intel® Pentium® Dual Core Processor, and Intel® Pentium® 4 Processor 6x1 Sequence Thermal and Mechanical Design Guidelines Supporting the Intel® Core™ 2 Duo desktop processor E6000 and E4000 sequences, Intel® Pentium® Dual Core Processor E2000 sequence, and Intel® Pentium® 4 processor. 6x1 sequence at 65 W Importance of Thermal Management The objective of thermal management is to ensure that the temperatures of all components in a system are maintained within their functional temperature range. Within this temperature range, a component is expected to meet its specified performance. Operation outside the functional temperature range can degrade system performance, cause logic errors, or cause component and/or system damage. Temperatures exceeding the maximum operating limit of a component may result in irreversible changes in the operating characteristics of this component. In a system environment, the processor temperature is a function of both system and component thermal characteristics. The system level thermal constraints consist of the local ambient air temperature and airflow over the processor as well as the physical constraints at and above the processor. Nada dering. The processor temperature depends in particular on the component power dissipation, the processor package thermal characteristics, and the processor thermal solution. All of these parameters are affected by the continued push of technology to increase processor performance levels and packaging density (more transistors). As operating frequencies increase and packaging size decreases, the power density increases while the thermal solution space and airflow typically become more constrained or remains the same within the system. The result is an increased importance on system design to ensure that thermal design requirements are met for each component, including the processor, in the system. Read the full. Intel® Dual-Core Processors: Thermal Design Intel® Core™ 2 Duo Processor, Intel® Pentium® Dual Core Processor, and Intel® Celeron® Dual-Core Processor: Thermal and Mechanical Design Guidelines Supporting the: - Intel® Core™ 2 Duo Processor E6000 and E4000 Series, Intel® Pentium® Dual Core Processor E2000 Series, and Intel® Celeron® Dual-Core Processor E1000 Series Document. Goals: Depending on the type of system and the chassis characteristics, new system and component designs may be required to provide adequate cooling for the processor. The goal of this document is to provide an understanding of these thermal characteristics and discuss guidelines for meeting the thermal requirements imposed on single processor systems using the Intel® Core™ 2 Duo processor E6000 and E4000 series, Intel® Pentium® Dual Core processor E2000 series, and Intel® Celeron® Dual-Core processor E1000 series. The concepts given in this document are applicable to any system form factor. Specific examples used will be the Intel enabled reference solution for ATX/uATX systems. See the applicable BTX form factor reference documents to design a thermal solution for that form factor. Read the full. History of Intel Pentium The Intel Pentium processor was first introduced in 1993. Being the first Pentium processor, it was simply called the Pentium Processor. The Pentium name, however, has come to represent several subsequent CPU models, including the Pentium 2, Pentium 3, Pentium 4 and Pentium Dual-Core CPUs. Each succeeding CPU model has improved on the last in multiple ways, most notable by increasing the CPU's processing speed and memory cache size. The 'Pentium' name helped Intel gain a near-monopoly over the CPU market for a large part of the 1990s. Memory Cache One of the key differences between Intel Pentium and AMD Athlon processors is the way they each store and access the CPU memory. This difference is also what accounts for the AMD Athlon processor's relatively lower price and comparable performance (with technically lower specs) with the Intel Pentium. The Intel Pentium processors store their memory in an L2 (level 2) cache that is roughly double the size of the cache found in comparable AMD processors. Intel Pentium Dual Core Cpu E5700The L2 cache is a memory bank that stores and transmits data to the L1 (level 1) cache which, in turn, stores and transmits data to the processor itself; the larger the L2 cache, the faster the processing speed. AMD Athlon processors, although they have roughly half the L2 cache space, are able to match this speed by integrating the memory cache into the processor itself. This technological decision allows AMD Athlon processors to access their cache data much quicker than Intel Pentium processors, even though the cache is smaller. CPU Benchmark Test Results When the original AMD Athlon processor (now dubbed 'Athlon Classic') was released, Intel was already on its third Pentium processor, the Pentium 3. To get an idea of how these CPUs stacked up to one another, a CPU benchmark test was conducted. The results were as follows and show the comparable nature of the two processors: CPU marks (the higher, the better): Athlon, 54.6; Pentium 3, 48.2 FPU marks (the higher, the better): Athlon, 3270; Pentium 3, 3340 MIPs (Million Instructions Per Second): Athlon, 1973; Pentium 3, 1795 MFLOPs (Mega Floating-Point Operations Per Second): Athlon, 797; Pentium 3: 892 Bits Per Second: Athlon, 1254; Pentium 3: 1586. Description Type OS Version Date This download installs the Intel® Graphics Driver for 6th, 7th, 8th, 9th generation, Apollo Lake, Gemini Lake, Amber Lake, and Whiskey Lake. (DCH 25.20.100.6471) Drivers Windows 10, 64-bit* DCH 25.20.100.6471 Latest This download installs the Intel® Graphics BETA Driver for 6th, 7th, 8th, 9th generation, Apollo Lake, Gemini Lake, Amber Lake, and Whiskey Lake (DCH 25.20.100.6448). Drivers Windows 10, 64-bit* DCH 25.20.100.6448 Latest This download record installs the Intel® Processor Diagnostic Tool release 4.1.0.32, which is compatible with multiprocessor systems. Software Applications OS Independent Windows 10* Windows 8.1* 4 more 4.1.0.32 Latest 12/1/2018 This download installs the Intel® Graphics Driver for Braswell, 4th and 5th generations. (15.) Drivers Windows 10, 32-bit* Windows 10, 64-bit* Windows 8.1, 32-bit* 3 more 15. Latest 9/18/2018 This download installs the Intel® Graphics Driver for 4th Gen. (15.) Drivers Windows 8.1, 32-bit* Windows 8.1, 64-bit* Windows 7, 32-bit* Windows 7, 64-bit* 15. Latest 9/18/2018 This download installs the Intel® Graphics Driver for Baytrail and 3rd generation. (15.) Drivers Windows 10, 32-bit* Windows 10, 64-bit* Windows 8.1, 32-bit* 3 more 15. Latest 9/18/2018 The target user for this package are OS vendors such as Linux distributions. (20180807) Firmware Linux* Latest Latest 8/7/2018 This download installs version 5.80 of the Intel® Processor Identification Utility for Windows*. Software Applications Windows 10* Windows 8.1* Windows 8* 7 more 5.80 Latest This software package contains all the necessary recipes, target package for Intel® SoC Watch, Intel® VTune™ Amplifier and Intel® Integrated Performace Primitives. Intel Pentium R Dual Core ProcessorsDrivers Linux* MR3.1 Latest 8/24/2017 This zip file contains the main components of OpenGL (OGL), OpenCL (OCL), and media driver packages required by the Yocto Project*. Drivers Linux* MR3.1 Latest 8/23/2017 This software package contains high definition (HD) audio and low-power-engine (LPE) components available in 64-bit systems. Drivers Linux* MR3.1 Latest 8/18/2017 This Yocto Project* meta layer contains all the necessary graphics and multimedia recipes. Drivers Linux* MR3.1 Latest 8/7/2017 This contains tools like calibration, ISSU, TraceTools, UpdatePDTTool, and recipes to integrate the package into Yocto Project* for Intel Atom® E3900 SoC family. Drivers Linux* MR3.1 Latest 8/7/2017 Installs Intel® Graphics driver 38.15.0.1125 for Windows 7*, 32-bit. Drivers Windows 7 Professional, 32-bit* Windows 7 Ultimate, 32-bit* Windows Embedded Standard 7, 32-bit Edition* 38.15.0.1125 Latest 6/21/2016 This download installs version build 2073 of the BIOS Implementation Test Suite (BITS). Software Applications OS Independent Build 2073 Latest 2/2/2016 This download installs version 15.40.7.64.4279 of the Intel® Graphics Driver for Windows® 10, 64-bit. Drivers Windows 10, 64-bit* 15.40.7.64.4279 Latest 9/1/2015 The Intel® Processor Identification Utility is provided by Intel to identify characteristics of a processor inside a system. Software Applications OS Independent 5.30 Latest 8/13/2015 This download installs the Intel® Graphics Driver for Braswell. Drivers Windows 10, 32-bit* 15.40.1.4256 Latest 7/29/2015 This download installs the Intel® Graphics Driver for Braswell. Drivers Windows 10, 64-bit* 15.40.1.64.4256 Latest 7/29/2015 This package installs the Intel® HD Graphics Driver version 15. (9.) for Windows* 7, Windows 8, and Windows 8.1, 32-bit. Drivers Windows 8.1, 32-bit* Windows 8, 32-bit* Windows 7, 32-bit* 15. Latest 6/5/2015.
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