Quick Search


Tibetan singing bowl music,sound healing, remove negative energy.

528hz solfreggio music -  Attract Wealth and Abundance, Manifest Money and Increase Luck



 
Your forum announcement here!

  Free Advertising Forums | Free Advertising Board | Post Free Ads Forum | Free Advertising Forums Directory | Best Free Advertising Methods | Advertising Forums > Post Your Free Ads Here in English for Advertising .Adult and gambling websites NOT accepted. > Small Business Opportunities:

Small Business Opportunities: This section is for posting your free classified ads about different work at home and home based business opportunities. NO PORN ALLOWED!

Reply
 
Thread Tools Display Modes
Old 08-27-2011, 02:42 AM   #1
i0love0u
Commander In Chief
 
Join Date: Nov 2010
Posts: 22,621
i0love0u is on a distinguished road
Default Christian Louboutin sneakers have been extremely i

Christian Louboutin sneakers have been extremely important,chanel spring summer 2011 handbags
At present,coco chanel handbags 2011, using the betterment in the generating craftsmanship,chanel necklace pearl drop, more and more lovely shoes pouring straight into all of our regular lifestyle. Christian louboutin shoes are the best symples,cc chanel inspired necklace, which style of boots and shoes usually are experiencing the great standing from the global sector not merely because of their trendy illustrations or photos.
The actual Price cut Christian Louboutin shoes Shoes also have an array of admirers as it showed up on the planet. Everything that can prove the good seeking Christian louboutin make stands out as the publicity ought to decide. Christian louboutin replications . and other artist ######## apparels in distributors and internet based with the home.
In the start,leather chanel bag, Cl. sneakers have been extremely important so it chatted of a persons societal standing up. Commoners would not be much of an effect when gentlemen of excessive has a high ranking including high-profile modern society users applied sneakers involving sophisticated products in addition to high priced add-ons.
i0love0u is offline   Reply With Quote
Old 08-27-2011, 02:57 AM   #2
t1ei2dw8ve
 
Posts: n/a
Default

CPU Manufacturers CPU products based on market positioning to give the same set of CPU products are a series of models to determine the classification and management, in general series of models can be used to distinguish between CPU performance is an important identity.
directory
About Intel dual-core CPU core TualatinWillametteNorthwoodPrescottIntel core AMD CPU Athlon XP processor, the core of the core type of type of new Duron CPU core Athlon 64 series CPU series models list the type of CPU Series Introduction to Early Model no significant low-end of the high points, such as Intel's mainstream desktop market for the Pentium and Pentiu
CPU
m MMX and high-end servers for the production of Pentium Pro; AMD's mainstream desktop market for The K5, K6, K6-2 and K6-III and the market for mobile K6-2 + and K6-III + and so on. As CPU technology and the development of IT market, Intel and AMD CPU manufacturers for the two market segments purposes, are invariably the product itself is subdivided into unit of high low-end CPU, thus the performance level to segment the market. And high low-end CPU series models is nothing more than the difference between the secondary cache capacity (usually only a quarter of a high-end products), FSB, FSB frequency support of the instruction set and support for some special techniques important aspect of the low-end CPU is basically that the end product is a shrink version of CPU products. For example, in addition to Intel's Celeron line of products is not the first outside of the secondary cache to always have only 128KB of secondary cache and 66MHz and 100MHz FSB, Pentium II/III/4 than contemporary series have much less , and AMD's Duron also has only a 64KB level-two cache, FSB has always been better than the Athlon and Athlon XP contemporaries to be an order of magnitude lower. CPU series is divided into high and low side, the two major CPU manufacturers have launched their own, respectively, a range of products. On the desktop platform, there is the mainstream desktop market for Intel's Pentium II, Pentium III and Pentium 4 and Celeron for low-end desktop market in the series (including the commonly known as the I / II / III / IV generation); and AMD, we have the the mainstream desktop market for the Athlon, Athlon XP and Duron desktop market for low-end Sempron and so on. In the mobile platform, Intel is there for high-end mobile market Mobile Pentium II, Mobile Pentium III, Mobile Pentium 4-M, Mobile Pentium 4 and Pentium M, and for the low-end mobile market Mobile Celeron and Celeron M; AMD also has high-end mobile market Mobile Athlon 4, Mobile Athlon XP-M and Mobile Athlon 64 and the low-end mobile market Mobile Duron and the Mobile Sempron and so on. Currently, CPU is a series of models is further subdivided into three types of low high school. In terms of a desktop CPU on, Intel, the high-end dual-core is the single-core Pentium EE and Pentium 4 EE, in the end is a dual core Pentium D and single-core Pentium 4, Celeron D is the low end and have been eliminated out of the Celeron (commonly known as the Celeron IV); and AMD, the high end is the Athlon 64 FX (including single-and dual-core), in the end is a dual-core Athlon 64 X2 and single core Athlon 64, low-end is the Sempron. The notebook CPU terms, Intel aspects of high-end is the Core Duo, the end of the Core Solo and the soon to be out of the Pentium M, the low end is the Celeron M; and AMD, the high end is the Turion 64, the end of the Mobile Athlon 64, the low end is the Mobile Sempron. However, the purchase of CPU products need to be noted that the series of models to distinguish between the level of CPU performance only for the same period of the product to be effective, everything is relative, of today is tomorrow's mid-high end, low-acquired end, high-end products such as the old Pentium 4 and Pentium M is now reduced to a mid-range products, AMD's Turion 64 after the release of the Turion 64 X2 will also be reduced in the end product. Another series of models of the time span of certain very large, such as Intel's Pentium 4 series from the November 2000 release date has passed six years at a time when the high end of the early Pentium 4 performance is still far less than now belongs to low-end Celeron D. And low-end CPU products also appeared to have a lot of overclocking is known or can modify the quality, for example, aspects of the early Intel Celeron 300A, the mid-Tualatin core Celeron III series,air force one low nike, and now the Celeron D series and so on; AMD aspects Duron also has an early connection because you can rely on to modify the Golden Bridge and the Athlon XP and Athlon rage, the mid-Barton core Athlon XP 2500 + and now the 64-bit Sempron 2500 + are known to overclocking performance. These low-end products and their modifications after overclocking performance no better than the same period the mainstream high-end models is poor, cost is very high. Intel Tualatin CPU core which is the famous V, frequency range from 1GHz to 1.4GHz, FSB was 100MHz (Celeron) and 133MHz (Pentium III), respectively, the secondary cache 512KB (Pentium III-S) and 256KB (Pentium III and Celeron), Socket 370 is the core of the strongest, and its performance even more than the early series of low-frequency Pentium 4 CPU. This is the early Willamette Pentium 4 and P4 Celeron with the core, initially used Socket 423 interface, then switch to Socket 478 interface (only the 1.7GHz and 1.8GHz Celeron both are Socket 478 interface), using 0.18um manufacturing Technology, FSB frequency is 400MHz, frequency range from 1.3GHz to 2.0GHz (Socket 423) and 1.6GHz to 2.0GHz (Socket 478), respectively, the secondary cache 256KB (Pentium 4) and 128KB (Celeron), attention , in addition to some models of the Pentium 4 Socket 423 interface, there's no secondary cache! 1.75V core voltage of about packages with Socket 423 for PPGA INT2, PPGA INT3, OOI 423-pin, PPGA FC-PGA2 and Socket 478 for PPGA FC-PGA2 and Celeron PPGA used and so on. Willamette core manufacturing process backward, heat, poor performance, has been eliminated, being replaced by the Northwood core. This is the Northwood Pentium 4 and Celeron mainstream used in the core of its biggest improvement with the Willamette core is manufactured using a 0.13um process, and are used Socket 478 interface, the core voltage of 1.5V or so, respectively, 128KB secondary cache (Celeron) and 512KB (Pentium 4), front side bus frequency was 400/533/800MHz (Celeron are only 400MHz), 2.0GHz frequency ranges to 2.8GHz (Celeron), 1.6GHz to 2.6GHz ( 400MHz FSB Pentium 4), 2.26GHz to 3.06GHz (533MHz FSB Pentium 4) and the 2.4GHz to 3.4GHz (800MHz FSB Pentium 4), and the 3.06GHz Pentium 4 and all support 800MHz Pentium 4 Hyper-Threading Technology (Hyper-Threading Technology), packages with PPGA FC-PGA2, and PPGA. According to Intel's plans, Northwood core will soon be replaced by Prescott core. This is the latest Intel Prescott CPU core, the current Pentium 4 XXX (such as the Pentium 4 530) and Celeron D with the core, there is a small amount of CPU over 2.8GHz frequency used in the core. The biggest difference with the Northwood is the use of a 0.09um manufacturing process and more of the pipeline structure, the initial use of Socket 478 interface, the current production of all LGA 775 interfaces to the core voltage of 1.25-1.525V, FSB frequency of 533MHz (not Support Hyper-Threading Technology) and 800MHz (support Hyper-Threading Technology), top with the Pentium 4 Extreme Edition 1066MHz. Compared with the Northwood, the L1 data cache increased from 8KB 16KB, and 512KB L2 cache increased from 1MB or 2MB, packages using PPGA, Prescott Northwood core has replaced the core of the market's mainstream products. Intel introduced dual-core processors are now dual-core Intel Pentium D processor and Pentium Extreme Edition, also introduced 945/955 chipsets to support the new dual-core processor manufactured using 90nm process launched two new dual- core processor is not pin LGA 775 interface, but the bottom of the processor chip capacitors increase in the number, arrangement,air force 1 shoes, are different. The core desktop processor code-named Smithfield, officially named the Pentium D processor, in addition to Arabic numerals use letters out to the dual-core processors, said outside the generational change, D letters are more likely reminiscent of Dual- Core dual-core meaning. Intel's dual-core architecture is more like a dual CPU platform, Pentium D processor architecture and 90nm Prescott continue with the production technology to produce. Pentium D Core 2 is actually due to two separate independent Prescott core, each core with 1MB L2 cache and independent execution units, two core together has a total of 2MB, but processors have two cores independent of the cache, it must Yasumasa information among each of the secondary cache consistent, otherwise there will be operator error. To solve this problem,nike air force 1, Intel will be coordination between the two cores to the outside MCH (North Bridge) chip, although the data transfer between cache and storage is not huge, but due to the need of the MCH chip through external coordination processing, will no doubt bring some overall processing speed of the delay, thus affecting the overall performance of the play to the processor. As a result of Prescott core, the Pentium D technology also supports EM64T, XD bit security technology. It is worth mentioning that,nike air force one high, Pentium D processor will not support Hyper-Threading technology. The reason is obvious: in a number of physical processors and logical processors over the proper allocation of data streams, balanced computing task is not easy. For example, if the application requires two computing threads, each thread corresponds to a clear physical cores, but if there are three operational thread? Therefore, dual-core Pentium D to reduce the complexity of the architecture, Intel decided to Pentium D for the mainstream market in the removal of Hyper-Threading technology support. The hands of the same from Intel, and Pentium D and Pentium Extreme Edition dual-core processor name on the two difference also indicates that the two processors are not the same in the specification. The biggest difference between them which is for the HT (Hyper-Threading) technology support. Not support Hyper-Threading Technology Pentium D, Pentium Extreme Edition and there is no restriction in this regard. In the case of open Hyper-Threading Technology, dual-core Pentium Extreme Edition processors can simulate two logical processors, the system can be considered as four-core system. AMD CPU core core type of Athlon XP Athlon XP core has 4 different types, but all things in common: both use the interface and all Socket A with PR
CPU
nominal value of the mark. Palomino Athlon XP This is the first core, using 0.18um manufacturing process, the core voltage of 1.75V or so, the secondary cache is 256KB, packages with OPGA, front side bus frequency is 266MHz. Thoroughbred This is the first manufacturing process using 0.13um Athlon XP core, is divided into Thoroughbred-A and Thoroughbred-B in two versions, the core voltage of 1.65V-1.75V or so, the secondary cache is 256KB, packages with OPGA, 266MHz front side bus frequency and 333MHz. Thorton using 0.13um process technology, the core voltage of 1.65V or so, the secondary cache is 256KB,air force one high, packages with OPGA, front side bus frequency is 333MHz. Half shield can be seen as secondary cache Barton. Barton using 0.13um process technology, the core voltage of 1.65V or so, the secondary cache is 512KB, packages with OPGA, 333MHz front side bus frequency and 400MHz. The core of a new type of AppleBred Duron 0.13um manufacturing process used,air force one shoes, the core voltage of 1.5V or so, the secondary cache is 64KB, packages with OPGA, front side bus frequency is 266MHz. Nominal value of the mark does not use PR and the actual frequency tagging, a 1.4GHz, 1.6GHz and 1.8GHz of three. The core Athlon 64 series CPU type Clawhammer using 0.13um process technology, the core voltage of about 1.5V, the secondary cache is 1MB, packages with mPGA, using Hyper Transport bus, built a 128bit memory controller. Use Socket 754, Socket 940 and Socket 939 interface. Newcastle and Clawhammer the main difference between the secondary cache is reduced to 512KB (which is AMD to market needs and accelerate the promotion of 64-bit CPU to take the result of relatively low prices), other properties the same. AMD dual-core processor AMD introduced dual-core processors are dual-core Opteron series and the new Athlon 64 X2 series processors. Which is used to counter the Athlon 64 X2 and Pentium Extreme Edition Pentium D dual-core desktop processor family. AMD introduced the Athlon 64 X2 Athlon 64 processors from the two used a combination of Venice core, each core has an independent 512KB (1MB) L2 cache and execution units. In addition to more than a Core from the Athlon 64 architecture relative to the current structure does not in any significant change. Dual-core Athlon 64 X2 most of the specifications, functions and we are familiar with the Athlon 64 architecture does not make any difference, that the new Athlon 64 X2 dual-core processors still support the 1GHz HyperTransport bus specifications, and built-in support for dual-channel Set the DDR memory controller. Intel dual-core processor and the difference is, Athlon 64 X2 does not need two cores each other through coordination between the MCH. AMD Athlon 64 X2 dual-core in-house provided a processor known as the System Request Queue (system request queue) technology, at work each core will be placed in its request SRQ, when access to resources after the request will was sent to the appropriate implementation of the core, meaning that all the processing in the CPU core are within the scope and do not need the help of external devices. For dual-core architecture, AMD's approach is to integrate two cores on the same piece of silicon into the kernel, while Intel's dual-core processing means more like a simple core to do the two together only. And compared to Intel's dual-core architecture, AMD dual-core processor system will not transfer the bottleneck between the two core problems. In this respect, therefore, Athlon 64 X2 architecture is much better than Pentium D architecture. Although, compared with Intel, AMD is not worried about Prescott core with such large power consumption and heat, but also need to consider a dual-core processors way to reduce power consumption. AMD did not use this approach to reduce the frequency, but its use 90nm technology, the Athlon 64 X2 processor used in the so-called strained silicon technology Dual Stress Liner with SOI technology used in conjunction to produce higher performance , lower power transistors. AMD introduced the Athlon 64 X2 processor gives users the most cost-effective benefit is that you can use without having to change platform, the new dual-core processors, as long as the old motherboard BIOS upgrade click on it, which is Intel dual-core processing device must be replaced to support the practice of the new platform compared to dual-core system upgrade will save a lot of costs. CPU Series Model List Series Model Code Interface Core frequency (GHz) frequency HT (GHz) L1 (KB) L2 (KB) L3 (MB) TDP (W) Sempron2800 + ManilaAM21 1.6 80.8 128128-62Sempron3000 + ManilaAM21 1.6 80.8 128256 - 62Sempron3000 + EE SFFManilaAM21 1.6 80.8 128256-35Sempron3200 + ManilaAM21 1.8 90.8 128128-62Sempron3200 + EE SFFManilaAM21 1.8 90.8 128128-35Sempron3400 + ManilaAM21 1.8 90.8 128256-62Sempron3400 + ManilaAM21 1.8 90.8 128256-62Sempron3400 + EE SFFManilaAM21 1.8 90.8 128256-35Sempron3500 + ManilaAM21 2.0 100.8 128128-62Sempron3500 + EE SFFManilaAM21 2.0 100.8 128128-35Sempron3600 + ManilaAM21 2.0 100.8 128256-62Sempron3800 + ManilaAM21 2.2 110.8 128256-62SempronLE-1100SpartaAM21 1.9 9.50.8 128256-45SempronLE-1150SpartaAM21 2.0 100.8 128256-45SempronLE-1200SpartaAM21 2.1 10.50.8 128512-45SempronLE-1200SpartaAM21 2.1 10.50 .8 128512-45SempronLE-1250SpartaAM21 2.2 110.8 128512-45SempronLE-1300SpartaAM21 2.3 11.50.8 128512-45Sempron140SargasAM31 2.7 13.52.0 1281024-45Sempron X22100BrisbaneAM22 1.8 90.8 2 × 1282 × 256-65Sempron X22100BrisbaneAM22 1.8 90.8 2 × 1282 × 256-65Sempron X22200BrisbaneAM22 2.0 100.8 2 × 1282 × 256-65Sempron X22300BrisbaneAM22 2.2 110.8 2 × 1282 × 256-65Athlon 643000 + OrleansAM21 1.8 91.0 128512-62Athlon 643200 + OrleansAM21 2.0 101.0 128512-62Athlon 643500 + OrleansAM21 2.2 111.0 128512-62Athlon 643500 + OrleansAM21 2.2 111.0 128512-62Athlon 643500 + OrleansAM21 2.2 111.0 128512-62Athlon 643500 + EE SFFOrleansAM21 2.2 111.0 128512-35Athlon 643800 + OrleansAM21 2.4 121.0 128512-62Athlon 643800 + OrleansAM21 2.4 121.0 128512-62Athlon 644000 + OrleansAM21 2.6 131.0 128512-62Athlon 643500 + EE SFFLimaAM21 2.2 111.0 128512-35Athlon 643500 + LimaAM21 2.2 111.0 128512-45Athlon 643800 + LimaAM21 2.4 121.0 128512-45AthlonLE-1600OrleansAM21 2.2 111.0 1281024-45AthlonLE-1620OrleansAM21 2.4 121.0 1281024-45AthlonLE-1640OrleansAM21 2.6 131.0 1281024-45AthlonLE-1640LimaAM21 2.7 13.51.0 128512-45AthlonLE-1660LimaAM21 2.8 141.0 128512-45Athlon 64 X23600 + indsorAM22 2.0 101.0 2 × 1282 × 256-89Athlon 64 X23600 + EEindsorAM22 2.0 101.0 2 × 1282 × 256-65Athlon 64 X23800 + indsorAM22 2.0 101.0 2 × 1282 × 512-89Athlon 64 X23800 + EEindsorAM22 2.0 101.0 2 × 1282 × 512-65Athlon 64 X23800 + EEindsorAM22 2.0 101.0 2 × 1282 × 512-65Athlon 64 X23800 + EE SFFindsorAM22 2.0 101.0 2 × 1282 × 512-35Athlon 64 X24000 + indsorAM22 2.0 101.0 2 × 1282 × 1024-89Athlon 64 X24000 + EEindsorAM22 2.0 101.0 2 × 1282 × 1024-65Athlon 64 X24200 + indsorAM22 2.2 111.0 2 × 1282 × 512-89Athlon 64 X24200 + EEindsorAM22 2.2 111.0 2 × 1282 × 512-65Athlon 64 X24400 + indsorAM22 2.2 111.0 2 × 1282 × 1024-89Athlon 64 X24400 + EEindsorAM22 2.2 111.0 2 × 1282 × 1024-65Athlon 64 X24600 + indsorAM22 2.4 121.0 2 × 1282 × 512-89Athlon 64 X24600 + EEindsorAM22 2.4 121.0 2 × 1282 × 512-89Athlon 64 X24600 + EEindsorAM22 2.4 121.0 2 × 1282 × 512-89Athlon 64 X24800 + indsorAM22 2.4 121.0 2 × 1282 × 1024-89Athlon 64 X24800 + EEindsorAM22 2.4 121.0 2 × 1282 × 1024-65Athlon 64 X25000 + indsorAM22 2.6 131.0 2 × 1282 × 512-89Athlon 64 X25000 + indsorAM22 2.6 131.0 2 × 1282 × 512-89Athlon 64 X25000 + EEindsorAM22 2.6 131.0 2 × 1282 × 512-65Athlon 64 X25200 + indsorAM22 2.6 131.0 2 × 1282 × 1024-89Athlon 64 X25200 + EEindsorAM22 2.6 131.0 2 × 1282 × 1024-65Athlon 64 X25400 + indsorAM22 2.8 141.0 2 × 1282 × 512-89Athlon 64 X25600 + indsorAM22 2.8 141.0 2 × 1282 × 1024-89Athlon 64 X26000 + indsorAM22 3.0 151.0 2 × 1282 × 1024-125Athlon 64 X26000 + EEindsorAM22 3.0 151.0 2 × 1282 × 1024-89Athlon 64 X26400 + indsorAM22 3.2 161.0 2 × 1282 × 1024-125Athlon 64 X26400 + BEindsorAM22 3.2 161.0 2 × 1282 × 1024-125Athlon 64 FXFX-62indsorAM22 2.8 141.0 2 × 1282 × 1024-125Athlon 64 X23600 + BrisbaneAM22 1.9 9.51.0 2 × 1282 × 512-65Athlon 64 X24000 + BrisbaneAM22 2.1 10.51.0 2 × 1282 × 512-65 Series Model Code Interface Core frequency (GHz) frequency HT (GHz) L1 (KB) L2 (KB) L3 (MB) TDP (W) Athlon 64 X24200 + BrisbaneAM22 2.2 111.0 2 × 1282 × 512-65Athlon 64 X24400 + BrisbaneAM22 2.3 11.51. 0 2 × 1282 × 512-65Athlon 64 X24400 + BrisbaneAM22 2.3 11.51.0 2 × 1282 × 512-65Athlon 64 X24800 + BrisbaneAM22 2.5 12.51.0 2 × 1282 × 512-65Athlon 64 X24800 + BrisbaneAM22 2.5 12.51.0 2 × 1282 × 512-65Athlon 64 X25000 + BrisbaneAM22 2.6 131.0 2 × 1282 × 512-65Athlon 64 X25000 + BrisbaneAM22 2.6 131.0 2 × 1282 × 512-65Athlon 64 X25000 + BEBrisbaneAM22 2.6 131.0 2 × 1282 × 512-65Athlon 64 X25000 + BEBrisbaneAM22 2.6 131.0 2 × 1282 × 512-65Athlon 64 X25200 + BrisbaneAM22 2.7 13.51.0 2 × 1282 × 512-65Athlon 64 X25400 + BrisbaneAM22 2.8 141.0 2 × 1282 × 512-65Athlon 64 X25400 + BEBrisbaneAM22 2.8 141.0 2 × 1282 × 512-65Athlon 64 X25600 + BrisbaneAM22 2.9 14.51. 0 2 × 1282 × 512-65Athlon 64 X26000 + BrisbaneAM22 3.1 15.51.0 2 × 1282 × 512-89Athlon X2BE-2300BrisbaneAM22 1.9 9.51.0 2 × 1282 × 512-45Athlon X2BE-2350BrisbaneAM22 2.1 10.51.0 2 × 1282 × 512 - 45Athlon X2BE-2350BrisbaneAM22 2.1 10.51.0 2 × 1282 × 512-45Athlon X2BE-2400BrisbaneAM22 2.3 11.51.0 2 × 1282 × 512-45Athlon X2BE-2400BrisbaneAM22 2.3 11.51.0 2 × 1282 × 512-45Athlon X23250eBrisbaneAM22 1.5 7.51.0 2 × 1282 × 512-22Athlon X24050eBrisbaneAM22 2.1 10.51.0 2 × 1282 × 512-45Athlon X24450eBrisbaneAM22 2.3 11.51.0 2 × 1282 × 512-45Athlon X24850eBrisbaneAM22 2.5 12.51.0 2 × 1282 × 512-45Athlon X25050eBrisbaneAM22 2.6 131.0 2 × 1282 × 512 - 45Athlon X27450KumaAM2 +2 2.4 121.8 2 × 1282 × 512295Athlon X27550KumaAM2 +2 2.5 12.51.8 2 × 1282 × 512295Athlon X27750 BEKumaAM2 +2 2.7 13.51.8 2 × 1282 × 512295Athlon X27850 BEKumaAM2 +2 2.8 141.8 2 × 1282 × 512295Athlon II X2240RegorAM32 2.8 142.0 2 × 1282 × 512-65Athlon II X2245RegorAM32 2.9 14.52.0 2 × 1282 × 512-65Athlon II X2250RegorAM32 3.0 152.0 2 × 1282 × 512-65Phenom II X2545CallistoAM32 3.0 152.0 2 × 1282 × 512680Phenom II X2550 BECallistoAM32 3.1 15.52.0 2 × 1282 × 512680Phenom X38250eTolimanAM2 +3 1.9 9.51.8 3 × 1283 × 512265Phenom X38400TolimanAM2 +3 2.1 10.51.8 3 × 1283 × 512295Phenom X38450TolimanAM2 +3 2.1 10.51.8 3 × 1283 × 512295Phenom X38450eTolimanAM2 +3 2.1 10.51.8 3 × 1283 × 512265Phenom X38600TolimanAM2 +3 2.3 11.51.8 3 × 1283 × 512295Phenom X38650TolimanAM2 +3 2.3 11.51.8 3 × 1283 × 512295Phenom X38750TolimanAM2 +3 2.4 121.8 3 × 1283 × 512295Phenom X38750 BETolimanAM2 +3 2.4 121.8 3 × 1283 × 512295Phenom X38850 BETolimanAM2 +3 2.5 12.51.8 3 × 1283 × 512295Phenom II X3700eHekaAM33 2.4 122.0 3 × 1283 × 512665Phenom II X3705eHekaAM33 2.5 12.52.0 3 × 1283 × 512665Phenom II X3710HekaAM33 2.6 132.0 3 × 1283 × 512695Phenom II X3720 BEHekaAM33 2.8 142.0 3 × 1283 × 512695Phenom X49100eAgenaAM2 + 4 1.8 91.6 4 × 1284 × 512265Phenom X49150eAgenaAM2 +4 1.8 91.6 4 × 1284 × 512265Phenom X49350eAgenaAM2 +4 2.0 101.8 4 × 1284 × 512265Phenom X49500AgenaAM2 +4 2.2 111.8 4 × 1284 × 512295Phenom X49550AgenaAM2 +4 2.2 111.8 4 × 1284 × 512295Phenom X49600AgenaAM2 + 4 2.3 11.51.8 4 × 1284 × 512295Phenom X49600 BEAgenaAM2 +4 2.3 11.51.8 4 × 1284 × 512295Phenom X49650AgenaAM2 +4 2.3 11.51.8 4 × 1284 × 512295Phenom X49700AgenaAM2 +4 2.4 122.0 4 × 1284 × 5122125Phenom X49750AgenaAM2 +4 2.4 121.8 4 × 1284 × 512295Phenom X49750AgenaAM2 +4 2.4 121.8 4 × 1284 × 512295Phenom X49750AgenaAM2 +4 2.4 121.8 4 × 1284 × 5122125Phenom X49750AgenaAM2 +4 2.4 121.8 4 × 1284 × 5122125Phenom X49850AgenaAM2 +4 2.5 12.52.0 4 × 1284 × 5122125Phenom X49850 BEAgenaAM2 + 4 2.5 12.52.0 4 × 1284 × 5122125Phenom X49950 BEAgenaAM2 +4 2.6 132.0 4 × 1284 × 5122125Phenom X49950 BEAgenaAM2 +4 2.6 132.0 4 × 1284 × 5122140Phenom II X4805DenebAM34 2.5 12.52.0 4 × 1284 × 512495Phenom II X4810DenebAM34 2.6 132.0 4 × 1284 × 512495Phenom II X4900eDenebAM34 2.4 122.0 4 × 1284 × 512665Phenom II X4905eDenebAM34 2.5 12.52.0 4 × 1284 × 512665Phenom II X4910DenebAM34 2.6 132.0 4 × 1284 × 512695Phenom II X4920DenebAM2 +4 2.8 141.8 4 × 1284 × 5126125Phenom II X4925DenebAM34 2.8 141.8 4 × 1284 × 5126125Phenom II X4940 BEDenebAM2 +4 3.0 151.8 4 × 1284 × 5126125Phenom II X4945DenebAM34 3.0 152.0 4 × 1284 × 5126125Phenom II X4945DenebAM34 3.0 152.0 4 × 1284 × 512695Phenom II X4955 BEDenebAM34 3.2 162.0 4 × 1284 × 5126125Phenom II X4965 BEDenebAM34 3.4 172.0 4 × 1284 × 5,126,140 entries for more Atlas Atlas Open Category: CPU, CPU series model, series model
  Reply With Quote
Reply


Thread Tools
Display Modes

Posting Rules
You may not post new threads
You may not post replies
You may not post attachments
You may not edit your posts

vB code is On
Smilies are On
[IMG] code is On
HTML code is Off


All times are GMT. The time now is 02:37 PM.

 

Powered by vBulletin Version 3.6.4
Copyright ©2000 - 2024, Jelsoft Enterprises Ltd.
Free Advertising Forums | Free Advertising Message Boards | Post Free Ads Forum