Tequila

Los amigos de El Padrino Producciones (EPP), presentan:

Ya llegó!

Foto del día

Me canse del tráfico...

... que hay en el Golf Club.

Por eso es que decidí comprarme uno de estos:



Las ventajas que te da el tener uno de estos, son infinitas. Desde evitar quedarse atrapados en las trampas de arena, hasta poder llegar al os más inaccesibles "greens".

Además, y como si fuera poco, viene con equipo de gas!!!

Luego de encontrar este post webeando por ahí, llegue a la conclusión de que la frase obligada para estas situaciones ya no es la más apropiada. Entonces debí utilizar toda mi creatividad y llegar a la siguiente conclusión:

"Este planeta da para todo!"

Frase original: "Este país da para todo"

Jefe, YO?

Gaturreando (XI)

Dilbert (XXII)

Mi tipo de actitud... (II)

Mobile Internet

The Man With The Hat is Back

¿Porque Intel?

Érase una vez en la historia en el año chijiriseis...

Introduction: AMD K6 vs Intel Pentium As a introduction we can say that there are a lot of different concepts between these kind of processors. In order to find out the main differences we will see basic concepts about processors technology. The evolution in the field of microprocessor, in the last 2 years, has been characterised by an even more increasing change; starting from spring 1997, when sixth generation CPUs have been introduced (AMD K6 and Intel Pentium II), clock frequency of processor has increased a lot coming over 500 MHz. Many think that the clock frequency of a processor is the most important element of general performance, while it is only one of the aspects to consider as it is as important as the architecture used on one side and the software optimisation on the other. For instance, two different CPUs both at 400 MHz of clock achieve different performance with some applications and the almost the same performance with others; this shows how it is wrong to consider only the clock frequency as choice parameter to measure the performance of a processo. Apart from the clock frequency, there are other important parameters such as the type and the amount of cache memory installed; this kind of memory allows to speed the data transfer from the processor to the system memory and affects the general performance; there are two types of cache: L1 cache or first level cache: it is contained in the processor Core and works as the clock frequency of the processor, so in a CPU with 400 MHz of clock, it will work at 400 MHz. The amount of L1 cache is usually reduced: in K6-2 and K6-III CPUs there are 64 Kbytes, while in Pentium 2, Pentium III and Celeron there are 32 Kbytes. Generally, L1 cache is divided in two blocks with the same size, one for data and the other for instructions. L2 cache or second level cache: the amount is higher than that of L1 cache and it isn't divided in blocks for data and instructions; it can be integrated in the Core of the CPU (as in Celeron and K6-III) or external to the CPU core but always on the CPU (as in Pentium II and Pentium III) or even on the motherboard (as in K6-2). The amount can change: 128 Kbytes for Celeron; 256 Kbytes for K6-III, 512 Kbytes for Pentium II and Pentium III; from 512 Kbytes to 2 Mbytes for K6-2, depending on the motherboard used. The working frequency too changes depending on the CPUs: the same of tha clock frequency for Celeron and K6-III, half of the clock frequency for Pentium II and Pentium III and the same of bus frequency (100 MHz) for K6-2. K6-III CPU led to the definition of a new kind of cache, L3 or third level; this is the L2 cache on Socket 7 motherboard renamed as L3 as K6-III integrates it within the CPU core. Note how when you disable the cache external to the processor there is a decrease in general performance (the benchmark used is Ziff-Davis Business Winstone 99). K6-III behaves different than K6-2 and Pentium II: as its L2 cache is integrated on the CPU core it has been possible to disable only the L3 cache, that is the one installed directly on the motherboard; note how the L3 cache doen's affect the performance (a decrease of 3,5%). Turning to applications which use the floating point unit, such as 3D Studio Max 2, you can note how disabling the L2 cache doesn't affect a lot the performance; this is due to the fact that the floating point calculations doesn't use a lot the L2 cache. Note how the performance of K6-III aren't affected quite at all. A second parameter to consider is the internal architecture of the CPU Core. The instructions topologies carried by a processor are, in general, two: Integer calculations: frequent in Business applications (word processing, spreadsheet, personal products, and so on). Floating point calculations: used with High-End appliations and with 3D scenes. The architecture chosen allows to obtain higher performance than the competitors in one, or both, topologie; Without describing the technical details, is important to know that CPU Core of AMD K6-2 and K6-III achieve, with the same clock frequency, better performance than that of Intel Celeron, Pentium II and Pentium III CPUs with integer calculations, while the contrary isn't true, where Intel CPU are better with floating point calculations. In detail L2 cache affect a lot the performance with integer calculations, while it doesn't affect quite at all the performance with floating point calculations. The special architecture of K6-2 CPU, with L2 cache working always at the bus frequency (100 MHz) and not bound to the clock frequency, allows, above a specific clock frequency, Intel CPUs to obtain better performance even with integer calculations due to the fact that with Intel CPUs the working frequency of the L2 cache increases as the clock frequency increases and consequently the performance too. This isn't true for K6-2 CPUs which have an L2 cache working at clock frequency. About 3D video performance, it deals a lot with processors; video and CPU are strictly connected. In the generation process of a 3D scene (let's think to a game) many factors are involved, both hardware and software; many think that most work is carried by the video card, and it is true, but the processor too plays an important role as it processes many calculations necessary to define the image. For instance, if we want to display a cube, the calculations for the corner position are carried by the processor and not by the video card; more complex is the scene, more calculations are to be carried and more will be the operations executed by the processor. These are floating point calculations, so the FPU (Floating Poin Unit) has to work hard. Considering the fact that 3D scenes aim at achieving real-life scene and showing many details leads to the creation of video processors more complex and with high performance, there will be an even increasing demand for floating point performance of the CPU to create scene which are even more complex (so with many polygons) and realistic. Intel and AMD, with their proprietary instruction sets within the Pentium III and K6-2 and K6-III CPUs, aim at increasing the performances of the processor while carrying the operations needed to create a 3D scene. These instructions, called respectively SSE and 3DNow!, are compatible among them and must be turned on by the software to work; practically, they are a good tool to overcome the performance limit of the FPU of the processor to allow the video chip to manage a high number of polygons and to create even more complex scenes.

AMD K6-III AMD K6 CPU has been launched in April 1997 and it has been the first CPU on the market of the sixth generation followed, a month later, by Intel Pentium II. This processor soon showed high performance with integer calculations (at that time the competitors were Intel Pentium MMX and Pentium PRO CPUs as well as the new Pentium II), with performance with floating point calculations as choke point. In June 1998 the model K6-2 has been introduced with some difference in comparison to K6. Production process at 0.25 microns: to be true this technology has already been implemented in the versions at 266 and 300 MHz of K6 available on the market starting from April 1998, but these are not popular on the market. Bus frequency at 100 MHz: K6-2 has been the first Socket 7 CPU to support this bus frequency with advantages in terms of general performance. Introduction of 3DNow! instruction set: to reduce the performance gap with game applications in comparison to Intel CPU, AMD introduced a set of 24 instructions called 3DNow! within the CPU Core. The introduction of 3DNow! instructions represented the first innovation in the x86 architecture since its introduction. In February 1999 there has been the third evolution of the K6 series, with the introduction of K6-III model; this CPU has been created integrating 256 Kbytes of L2 cache within the Core of K6-2 CPU. Following are listed the technical details of the two CPUs. K6-2 K6-III Socket Socket 7 Socket 7 L1 Cache 64 Kbytes (32K data; 32K istructions) 64 Kbytes (32K data; 32K istructions) L2 Cache from 512Kbytes to 2 Mbytes, depending on the motherboard used, working at bus frequency 256 Kbytes, inside the cpu Core; working at clock frequency L3 Cache - from 512Kbytes to 2 Mbytes, depending on the motherboard used, working at bus frequency Core voltage 2.2V (2.4V for 450 and 475 Mhz versions) 2.4V Clock frequency 300-333-350-366 380-400-450-475 Mhz 400-450 Mhz Bus frequency 95Mhz; 100 Mhz 100 Mhz Core type CXT CXT K6-III CPUs must be installed on Super 7 motherboards, that is those including following requirements: Bus frequency of 100 MHz. AGP slot for video card. Power voltage of 2.4V (2.2V for K6-2 CPU). Note how all the Super 7 motherboards for K6-2 CPUs, if including power voltage of 2.4 V, can use K6-III CPU too after updating the BIOS. There are some problems connected to the electrical features of the CPU; due to the integration of the L2 cache within the CPU Core, the requirements for a processor have been increased in comparison to K6-2, as shown here: K6-2 K6-III Current 7.35A (266 Mhz) 8.45A (300 Mhz) 9.40A (333 Mhz) 9.85A (350 Mhz) 10.30A (366 Mhz) 10.70A (380 Mhz) 11.25A (400 Mhz) 12.50A (450 Mhz) 13.00A (475 Mhz) 12.40A (400 Mhz) 13.50A (450 Mhz) Maximum heat dissipation 14.70W (266 Mhz) 17.20W (300 Mhz) 19.00W (333 Mhz) 19.95W (350 Mhz) 20.80W (366 Mhz) 21.60W (380 Mhz) 22.70W (400 Mhz) 28.40W (450 Mhz) 29.60W (475 Mhz) 26.80W (400Mhz) 29.50W (450 Mhz) Medium heat dissipation 8.85W (266 Mhz) 10.35W (300 Mhz) 11.40W (333 Mhz) 11.98W (350 Mhz) 12.48W (366 Mhz) 12.95W (380 Mhz) 13.65W (400 Mhz) 17.05W (450 Mhz) 17.75W (475 Mhz) 16.10W (400Mhz) 17.70W (450 Mhz) Note the increased maximum heat dissipation (the maximum values remains however the same as K6, that is 233 MHz working at 3.3V with a value of 30.2W), which can be explained both with power voltage increased at 2.4V and high clock frequency as well as the power maximum request which achieves 13.5 Amperes with version at 450 MHz of clock. It is important to check the Super 7 motherboards, above all if one of the first manufactured, to see if they can be used with K6-III CPUs; the readme file of the newest version of the BIOS must be read in orther to do this. The certification for K6-III CPU ensures that the electrical part of the motherboard matches the power requirements of the K6-III so to avoid stability problems and misbehaviours. K6-III CPU can also been installed on some Socket 7 motherboards including Intel 430HX and 430TX chipset with power voltage at 2.4V; these motherboards don't include bus frequency of 100 MHz, but this doesn't affect the performance as we can see in the following illustration: Setting the 2x multiplier of the motherboard (multiplier included in all Socket 7 motherboards), the CPU multiplies at 6x so to obtain the clock frequency of 400 MHz (66x6) similar to what happens with K6 CPU and Pentium MMX which turn on the 3.5x multiplier when the 1.5x motherboard is set. Is necessary to visit the Web site of the manufacturer and check the certification for K6-III (always with the problem above said of the maximum power), as well as the presence of a BIOS update which detects the CPU. Using the 3DNow! instructions allows to speed up a series of operations related to 3D graphics with an increase of frame per second displayed by a 3D scene; this doesn't happen with all kind of software, but 3DNow! instruction need to be supported. This can be done in three ways: Implementation of instructions within the graphic engine of the application, code of the program: in this way you obtain the best performance even if it is difficult to implement as you need to set again the code of the application or use 3DNow! instructions from the beginning. The same results can be obtained using upgrading patches specifically designed. DirectX 6: Microsoft API supports for 3DNow! starting from the version number 6; the limit to increase the performance is to see how the application programmers chose to use DirectX features which exploit the presence of 3DNow!. Video driver: as the 3DNow! instructions are specific to speed the 3D graphic, you can implement them within the driver of the video accelerator; this is the easiest way to implement, but performance doesn't increase a lot. The main limit of the 3DNow! instructions is a wide machine range (that is a number of PC including 3DNow! CPU) but a limited range of software. It is possible to see with games software. Microsoft API DirectX support 3DNow! instructions starting from the version number 6, but often game programmers don't use them or only partially; it refers to a more efficient support of the 3DNow! instructions starting from the version number 7 of DirectX. Practically, with 3DNow! instructions there is an increase of 10-15% of fps with DirectX 6 programs even if the patch for Quake 2 (a very popular game developed with 3D technology) specifically designed by AMD shows how the gain in performance can be higher if the instructions are used in the correct way: Using a 3dfx VooDoo 2 SLI accelerator is possible to note an increase in performance, about 68% more at a resolution of 800x600 and 65% at a resolution of 1024x768 using K6-III CPUs; using a Riva TNT accelerator, the gain in performance is lower, between 15% and 20% depending on the resolution. Using 3DNow! instructions with the rendering software leads to an increase in general performance even if limited to 12-14%; anyone use nowadays rendering through software, but this kind of test can show the average increase that we can expect turning on the 3DNow! instructions. 3D Mark Max benchmark allows to check the impact of 3DNow! instructions in rendering the polygons of the 3D scenes; turning on 3DNow! instructions lead to an increase in performance changing from 150% and 180%, a very high value. These data are only theoretical values as it can't be reproduced with real applications, but they clearly show how the appropriate 3DNow! instructions can speed up the processing of the geometry of the scene. Using 3DNow! instructions doesn't affect only the increase of displayed fps; in fact if there are games requiring many fps to be played (such as Quake 2), there are some other which need less frames per second (think to graphical adventures); in these cases, 3DNow! instructions enrich a 3D scene, more details are displayed to increase realism without changing the number of frames displayed (more processing power available, more polygons inserted in the scene and processed by the CPU, more detailed scene). Pentium III Pentium II has been launched at the end of April 1997; at the very beginning of that month AMD had launched the first x86 6th generation cpu, the K6, but Pentium II has soon become the fastest CPU available, both for clock frequency and general performance. There are many improvements from Pentium MMX (launched in January 1997): The connection to the motherboard isn't based on Socket 7 but on Slot 1; this is due to the need of integrating the L2 cache on the CPU (but not within the Core), but we can say that this change is really based on marketing reasons (Slot 1 has Intel copyright so other manufacturers can't use it unless they are licensed to). The L2 cache isn't related to bus frequency but to clock frequency (in particular, it works at half of clock frequency): we have seen how the working frequency of the L2 cache is an essential component for general performance; moving the L2 cache directly on the CPU, Intel managed to obtain a performance gain and a quite constant increase of performance as the clock frequency increases. Floating point unit taken from Pentium PRO CPU: higher performance with floating point calculations have been the most powerful aspect of this CPU in comparison to competitors, both AMD K6 and Intel Pentium (together with an higher clock frequency) which led to use it with High-End. Pentium II has been launched with clock frequencies of 233 and 266 MHz, followed by the 300 MHz version in September 1997; in January 1998 the version at 333 MHz was launched and it was the first CPU using a production process at 0.25 microns against the 0.35 microns of previous versions; this leads to distinguish two types of Core used for Intel Pentium II CPUs: Klamath at 0.35 microns and Deshutes at 0.25 microns. In April 1998 the version at 350 and 400 MHz of clock frequency have been launched, with bus at 100 Mhz, while in September 1998 the version at 450 MHz of clock frequency has been introduced. In February 1999 the Intel Pentium III CPU has been officially presented, available at 450 and 500 MHz of clock frequency: following are listed the main features of these CPUs: Pentium II Pentium III Slot type Slot 1 Slot 1 Cache L1 32 Kbytes (16K data; 16K instructions) 32 Kbytes (16K data; 16K instructions) Cache L2 512 Kbytes 512 Kbytes Core voltage 2.0V - 2.8V 2.0V Clock frequency 233-266-300-333-350-400-450 Mhz 450-500 Mhz Bus frequency 66Mhz; 100 Mhz 100 Mhz Core type Klamath (233-266-300 Mhz) Deshutes (333-350-400-450 Mhz) Deshutes Following are listed the electrical features of the processor: Pentium III Current 14.5A (450 Mhz) 16.1A (500 Mhz) Maximum heat dissipation 25.3W (266 Mhz) 28.0W (300 Mhz) It can seem that Pentium II and Pentium III are, except for the clock frequency, the same, but it isn't true: in Pentium III 70 new instructions have been introduced, called SSE (Streaming SIMD Extensions), which speed up 3D, videoconferencing and multimedia programs. In detail, they can be divided in three groups: 50 instructions work in SIMD (Single Instruction Multiple Data) mode, so they can apply the same instruction to many data at once speeding up the 3D graphic performance; 12 extensions of the MMX set of instructions (which was launched with Intel MMX CPU in January 1997) and work specifically with video rendering; 8 instructions allow the software to control the data flow from the system memory to the processor, through the processor memory avoiding the cache memory to put a side data which have to be used again with performance gain. From this comes that the software has to use all the 70 instructions, as it happens with 3DNow! instructions of AMD K6-2 and K6-III CPUs. This can be made in different ways: integrating the necessary code within the software (3D application or game), support through the driver of the video card (for the instructions which speed up the running of 3D applications) or through API Microsoft DirectX 6.1. Nowadays there are only few applications which use SSE instructions, so we can't forecast the spreading of these in houses' software; it is true that when they are used the performance increases as shown in these examples: The CPU 3D Mark test included in the 3D Mark 99 Max benchmark allows to check the impact of SSE instructions on the calculation process of the geometry of a 3D scene; note how using these instructions the performance increases of 62%. Another benchmark which shows that the performance increases when using the SSE instructions is Lightning and Transformation included within the 3D Winbench 99 version 1.1 of Ziff-Davis; the performance obtained by Celeron at 500 MHz is the same of an ideal Pentium III at 500 MHz without SSE instructions. Note how the performance increases of 72%, a very high value; the limit of these data is the fact that they refer to ideal situations which can't be reproduced in real life. One of the main features of Pentium III is a serial code which allows to identify the processor used; following there is a screenshot of the utility which allows to display the serial code. There have been many arguments on this feature of Pentium III: it is technically possible, in fact, that someone reads the serial code while you are online (such as when you visit a site) without noting it and this led Intel to disable the default serial code. It is difficult to understand why Intel introduced such a feature, except for the fact that it allows to identify the processor thanks to the serial code.

Overlockability AMD cpu, like K6-2 or K6-III, haven't any kind of frequency multiplier lock, so is possible to operate with these changing it, or increasing bus frequency. It is de definition of OVERLOCKING. In general is better, with Socket 7 cpu, to increase the bus frequency, because the L2 cache works at that frequency, and the L2 cache speed is very mportant for the general performance. With the K6-III the situation changes a lot, because the L2 cache is integrated in cpu Core and so the conversion into L3 cache of the motherboard cache, allows to understand how an increase of bus frequency isn't important, if not useless, for general performance. So is necessary to obtain the highest clock frequency supported by the cpu, even if, to do this, we have to use a not very high bus frequency. Anyway is important to work at about 100 Mhz bus frequency, to obtain high performance also from L3 cache and system memory in the event of cache miss, that is data that isn't possible to load on cpu L1 and L2 cache. For example, with a K6-2 cpu we obtain higher performance with 124x3.5 (434 Mhz) instead of 100x4.5 (450 Mhz), because the L2 cache works faster. With the K6-III, instead, is the contrary, because the L2 cache works at 450 Mhz instead of 434 Mhz. The overclockability range of K6-III is reduced, because the cpu Core voltage (2,4V) doesn't allow to overvolting the cpu more than 2,5V, to avoid cpu damage, even if it is impossible to generalize: not always two cpu are identical. Intel CPUs manufactured after August 1998 has a locked frequency multiplier so it isn't possible to set a different one in comparison to the default one independent from the fact that this is higher or lower; the frequency multipliers follow this kind of order: Processor multiplier Bus frequency Intel Pentium II 266 Mhz 4x 66 Mhz Intel Pentium II 300 Mhz 4.5x 66 Mhz Intel Pentium II 333 Mhz 5x 66 Mhz Intel Pentium II 350 Mhz 3.5x 100 Mhz Intel Pentium II 400 Mhz 4x 100 Mhz Intel Pentium II 450 Mhz 4.5x 100 Mhz Intel Pentium III 450 Mhz 4.5x 100 Mhz Intel Pentium III 500 Mhz 5x 100 Mhz Intel Celeron 266 Mhz 4x 66 Mhz Intel Celeron 300 Mhz 4.5x 66 Mhz Intel Celeron 300 A 4.5x 66 Mhz Intel Celeron 333 Mhz 5x 66 Mhz Intel Celeron 366 Mhz 5.5x 66 Mhz Intel Celeron 400 Mhz 6x 66 Mhz Intel Celeron 433 Mhz 6.5x 66 Mhz Intel Celeron 466 Mhz 7x 66 Mhz Generally Intel CPUs have a high margin of overclockability; in this case, Pentium III CPU at 500 MHz achieves with no problem 560 MHz using a bus frequency of 112 MHz while the version at 450 MHz achieves 504 MHz always with bus at 112 MHz. We can also achieve higher values acting on the cooling system, also because a value of 550 MHz of clock is near to the maximum limits of clock frequency of Deshutes core with production process at 0.25 microns.

Test configuration The test configuration is the following: Socket 7 Slot 1 cpu AMD K6-2 400 AMD K6-3 400 Intel Pentium III 500 Intel Pentium II 400 Intel Celeron 300A Intel Celeron 333 Intel Celeron 366 motherboard Asus P5A Abit BH6 memory 2x64 Mbyte Hunday PC100 2x64 Mbyte Hunday PC100 video cards Diamond Viper V550 (chip NVidia Riva TNT) Diamond Fire GL1000 (chip 3D Labs Permedia 2) Diamond Viper V550 (chip NVidia Riva TNT) Diamond Fire GL1000 (chip 3D Labs Permedia 2) 3D video cards 2 Creative Labs 3D Blaster VooDoo 2 8 Mbytes 2 Creative Labs 3D Blaster VooDoo 2 8 Mbytes hard disk Quantum Fireball EX 6.4 Gbyte Quantum Fireball EX 6.4 Gbyte cd-rom Pioneer 36x EIDE Pioneer 36x EIDE operative systems Windows 98 Windows NT 4 + Service Pack 3 Windows 98 Windows NT 4 + Service Pack 3 driver Windows 98: NVidia Detonator DirectX 6.1 Windows NT 4: 4.00.1381.0277 Windows 98: NVidia Detonator DirectX 6 Windows NT 4: 4.00.1381.0277 The tests have been carried out on following criteria: The hard disk has been formatted and Windows 98 - Windows NT 4 and Service Pack 3 have been installed; only the video card drivers have been loaded. Every benchmark has been run at least twice taking as reference the average value; if the results obtained seemed unreliable or very different one from the other, the benchmark has been run again up to five times. If the system didn't behave at a specific frequency even after having repeated several times the benchmarks, the hard disk was formatted again and installed again Windows 98 - Windows NT 4. After running every benchmark the system has been restarted and the hard disk defragmented using the Defrag software included in Windows 95 and the Diskeeper 3.0 for Windows NT 4. The CPUs haven't been tested only at the nominal frequencies, but also after being overclocked acting on the bus frequencies.

High-End applications Performances of the floating point unit of Intel cpus is quite superior to K6-2 and K6-III ones, as can easily be seen in High-End Winstone 99 results. K6-III has higher performances, at the same clock speed, than K6-2, thanks to the 256 full speed L2 cache memory, with an average gap of 9% compared with Intel cpus at the same clock speed (k6-2 obtains an average 23% gap when compared with Intel cpus). Measuring the time needed to apply some filters with Adobe Photoshop 5.02 we can clearely see that the best performances are achieved by Intel cpus, but K6-2 and K6-III are quite near; K6-III 450 Mhz has the same performance as Pentium II 400 Mhz. Best performances are obtained using Pentium III at 500 Mhz and celeron at 500 Mhz; we can clearely see that, even if Photoshop 5.02 is SSE optimized, this instructions are not used in this benchmark. Also with 3D Studio Max 2 we can clearely see that the performances of Intel's CPU are quite superior to AMD's one; the 256 Kbytes L2 speed working at clock frequency lets the K6-III to obtain performances 10% faster than K6-2 at the same clock speed, but still remains a certain gap with Intel cpus at the same clock speed.

Conclusions The comparison between Intel Pentium III and AMD K6-III clearly shows the differences, both in terms of performance and in terms of concepts, between the two CPUs: Interface: K6-III allows a longer life for systems based on Socket 7, if supported by the motherboard, while Pentium III is designed for Slot 1 systems based on Intel 440BX chipset (or on Via and Sis clones), from recent construction (the Slot 1 motherboard with bus at 100 MHz are 1 year old). They can be defined as two different ways of thinking and often people choose one processor instead of the other due to particular preferences in terms of interface. 3D instruction set: we have already seen how 3DNow! instruction set by AMD and SSE by Intel allow to obtain performance gains with 3D applications, but practically they can't be used as the software support is limited. Between the two, 3DNow! has the advantage of being available since June 1998 and it has many machines that support this set, which can lead houses' software to this kind of optimisation even if SSE seem to perform better. Performance: K6-III achieves very high performance with integer calculations, while there is a certain gap with a software using floating point unit; this gap is partly balanced, if the software allows it, using 3DNow! instructions. Pentium III, but it is the case for other Intel CPUs with the same clock frequency too, achieves high performance almost in every fields of usage even if this strength (sometimes very clear, as with High-End software) means also a higher price. This analysis shows that the CPU representing the best compromise between performance and price is Intel Celeron: this processor has, at the same clock frequency, similar performance as Pentium III with applications which don't use SSE instructions. K6-III is a big step forward in comparison to K6-II: the integration of 256 Kbytes of L2 cache working at the clock frequency allowed to obtain a big gain in performance both with Business applications and High-End software even if the performance of floating point unit (the same as in K6-II) is lower than that of Intel CPUs. Pentium III is practically a Pentium II working at a higher clock frequency and including the SSE instructions set; even if these CPUs, if correctly used, allow to obtain performance gains, the software support isn't still clear. The version at 500 MHz of Pentium III is, in general, the best performing processor available on the market, but its price is too high if compared to the performance. Finally, we can distinguish between three kind of processor needs: For a professional need in which what we really want is to work with data bases, spreadsheets, internet downloading and uploading, videoconferences and not very high performance applications, we have to look for an Intel Pentium processor, that is able to make a very high number of integer calculations per second and that allows us to work with a big variety of applications. For another kind of professional work in which we are going to work with millions of polygons and we need a very high number of floating point calculations per second, is strongly recommended to use an AMD K6 processor in orther to use all the possibilities of our accelerator card and all the hardware performance of our compouter. For the third kind of need we are able to use any of these processors: it is about the need of a personal computer in our house. As we saw before, Intel Celeron is the processor that best represents the compromise between performance and price. On the other hand, if we want to use an accelerator card for personal uses like 3D games or little 3D applications the best option is an AMD processor with 3DNow! technology.

...o simplemente porque así lo quiero yo.

¿capito?

Publicidad

Marcando tendencias

Siempre hay quienes están en la cresta de la ola y quienes luchan por llegar (aunque vayan un paso atrás). Obviamente no nos olvidemos de las masas que siguen a uno que dice saber, pero que realmente debería demostrarlo.

Corría el año 2005, más precisamente el mes de marzo. Cuando recibo a pedido el que en el momento era mi celular. Estamos hablando de mi Motorola V710 (locuras aparte), celular que en el momento nadie supo entender el porque de mi compra.

Hoy, dos años más tarde, leo una nota en el diario que muestra "La nueva revolución movil"

O yo soy un adelantado o llegamos dos años tarde...

Ahora yo me pregunto, quienes fueron los inteligentes y bajo que contexto tomaron la decisión de traer GSM y no CDMA 1X al país, allá por el año 2003? Me encantaría que hoy día me lo dijeran, tal como me hubiese gustado en el año 2005 que alguno de ellos me hubiera respondido la misma pregunta. Mi única conclusión por el momento, es que les encanta mal gastar la plata.

Aquellos que me acompañan desde los comienzos de este blog, saben prefectamente de lo que hablo. Justamente ellos saben que en cuanto a seguir tendencias tecnológicas, lo mejor es marcar la propia siguiendo sus propios conocimientos en la materia. Pero para aquellos que no quieran hacer dicho ejercicio. Pasen y lean este blog antes de comprar, se aceptan consultas.

No sea cosa que yo les diga... "Se los dije!"

Me fui...

... a manejar este lindo bichito:




Espero no dejarlo asi:



Señores taxistas, hoy es un buen día para hacer un paro de actividades...

... yo se porque se lo digo.

---

UPDATE: Este fue el culpable de que me haya comido a una multitud en una expo masiva el último día de la misma.

Telefonos móbiles

Resulta que hace unos años atrás la gente paseaba por las calles de mi ciudad con unos maletines. Eran el último grito de la moda, los telefonos móbiles. Vaya si eran pesados, tanto lo eran que más de uno terminó con contractura permanente. Pasaron los años y de tanto protestar parece que las compañías los escucharon, pues en estos últimos años esos bichitos pasaron a ser casi imperceptibles. Uno de los problemas de hoy día es perderlos.

Vaya, si que cambiaron los tiempos. Años atrás eran una bendición, ahora son una maldición. Entre escuchar que los móbiles son un fuente de radiación constante y todos los problemas que se le adjudican a ello, entre ellos la impotencia, el cancer y ya perdí la cuenta de cuantas cosas más...

Pues para retomar la cuenta, ahora parece que hay gente alérgica a los telefonos móbiles, y no justamente por que le desagraden...

Aqui les presento al primer ejemplar alégrico a los móbiles:

No, no... es la de la derecha.

Haciendo honor a la verdad, no es únicamente a los móbiles, su alergia. Es a todo dispositivo que emita o trabaje con un campo electromagnético. Lo malo de todo esto es que gastas una fortuna pintando tu casa con pintura negra y a base de carbón (parece ser la forma "top" de aislar un EMF).

...y si, tenía que ser británica.

Vuelve la foto del dia

Comentado por ahí. (XXI)

"El objetivo a cumplir por mi psicologa, es volverme más insano de lo que estoy actualmente."

...esto ya es demasiado, inclusive para mi.

Este blog, se suma al fanatismo...

...seguimos siendo fanáticos de Intel, pero que lindo que está TUX, no?

¿Bati-Gay?

... o como hacer mierda a un personaje de comics:


... o como irse de tema:
































Las fotos las encontré webeando por ahí.

Dilbert (XXI)

Gaturreando (X)

Encuesta semanal

Cuando uno se integra a un grupo de gente, debe

Adaptarse a los "usos y costumbres" de dicho grupo?

Hacer la suya y que la gente lo conozca por quien y como es?

Buscar negociar su forma de ser y los "usos y costumbres", para llegar a un término medio?

Explique que haría usted.

Desde ya muchas gracias por participar.

Mi tipo de actitud...

Robando posts, part deux.

Esto, ya se está volviendo una costumbre...

...Agrrr, muy linda la niña.

Encarando la ruta

Fiel a mi estilo, cargué a un grupete de amigos y nos fuimos de viaje...

Big Blue March: Continued

ULTIMO MOMENTO.

Esta redacción acaba de recibir información relacionada a cierto post en donde se la vio a Natalia Oreiro quitandose varias remeras azules...

El parte de noticias viene de la mano de Rocío y dice:

"Tengo noticias sobre la marcha que hizo Greenpeace sobre las ballenas con el lema I Go. Algunas de estas son: Se recuperó la iniciativa de Argentina y Brasil de crear un Santuario Ballenero del Atlántico Sur para la recuperación y conservación de las especies de la región, que obtuvo la mayoría simple, pero no alcanzó al 75% de votos necesarios, el año que viene se intentará nuevamente.

Se aprobó una Resolución que refuerza y reafirma la prohibición a la caza comercial de ballenas, anulando la “Declaración de St. Kitts” lograda por los balleneros en el 2006, que manifestaba lo contrario."

Manga de babosos, acaso esperaban a Natalia Oreiro???

Pero, que lo tiró!!!

Aca lo importante es el bienestar de las ballenas y no el ver a ...

...Agrrrrrrr.

Dilbert (XX)

Gaturreando (IX)

Asi voy a llegar a los 50...

Comentado por ahí. (XXI)

"No hagas preguntas de las cuales ya conoces las respuestas."

Transendental... pero no fundamental

Me surge una pregunta...

¿Porque Santo Biasatti, no es hincha de San Lorenzo?

¿Acaso no hace honor a su nombre?

...este fue el momento cultural de la semana

Frases celebres.

¿Es mejor estar casado o soltero?

Para las chicas es mejor quedarse solteras...

Pero los chicos necesitan a alguien que les limpie...

...Ana ( de 9 años)

---

¿Que tienen tus padres en común?

Que no quieren tener más hijos.

...José (de 8 años)

Lo pedís, lo tenés... (part deux)

Sr. DasBraulio;

En estos días la empresa Nokia, haciendo uso de su "lei motiv" - Connecting People, ha lanzado al mercado mundial dos nuevos modelos:

Uno de ellos pertenece a la serie 6500. Lo particular de este aparato es que trabaja con 3G WCDMA, y sale de fábrica con 1 GB de memoria interna y un puerto mini-USB, para cargarlo o simplemente conectarlo a la PC. También trae una cámara fotográfica de 3.2 megapixeles, y un zoom digital de 8 X.

Su precio: U$S430.-

"Luna" es el otro modelo en cuestión. Este pertenece a la serie 8600 de Nokia. Es un equipo cuatribanda, que utiliza tecnología EDGE y GSM. También trae una cámara fotográfica de 2 megapixeles,un zoom digital de 8 X, y un puerto mini-USB.

Todo al modico precio de U$S 700.-

(It's only for HighRollers)

(todos los precios se aplican a USA)

Gaturreando (IX)

Dilbert (XVIII)

Lo pedís, lo tenés...

Webeando por ahí, me encontré con un post. Si, si todavía me hago un tiempo para webear. No sea cosa que pierda la costumbre y después no sepa que hacer.

Sr. DasBraulio;

Se muy bien que usted no se va por las ramas a la hora de adquirir un elemento tecnológico. Empecemos por recomendarle la "joyita" de estos meses.

Aqui le presento el Motorola Z8.

Ahora, vamos a lo serio. A lo que realmente importa...

...las características de este teléfono móbil.

Primer punto a favor: Corre un sistema operativo Symbian, usted sabe lo que eso significa. Para aquellos que no tengan idea de que estoy hablando, aquí les dejo un link para que se instruyan.

Segundo punto a favor: Banda ancha móbil (3.6Mbps HSDPA). Como usted lo lee, este celular es 3.5G... (lo lamentable, nuevamente, es que su país de residencia no soporta dicha tecnología actualmente).



Extras:

• Cámara de fotos de 2 megapixeles con un zoom de 8x.
• Expansión de memoria microSD, hasta 4GB.
• Aproximadamente 90 MB de memoria interna.
• GSM/GPRS/EDGE.
• Display: TFT de 2.2" QVGA, 16 millones de colores.
  
• Tamaño: 109mm x 50mm x 15mm.
• Peso: 112 gramos.

Para mayor información Siga la flecha =>...

...to be continued.-

Defectos y Virtudes

De mi pueden escribir y pensar lo que quieran...

Pero se van a encontrar con este tipo de comentarios:

"Solo pase a saludar.
Cada tanto te leo...
Que bueno que te decidiste a escribir y seguir con tu blog dandonos tus opiniones y pensamientos. Siempre te alente a que lo hicieras.
Espero que estes bien.
Gracias por ayudarme en un momento dificil de mi vida."

Opinión

Siguiendo la política de este blog en donde todo comentario que valga la pena (según su editor), es publicado, nos encontramos con quien dijo:

"creo que la gente esta mas al tanto de que pasa con un caño que lo que sucede con los animales..."

...by Rocío.

Después de todo no estoy tan sólo.

Es bueno saber que uno no se encuentra sólo con sus convicciones. Es bueno saber que existe más gente que la que se ve en el espejo, que tiene más de dos dedos de frente y que utiliza la cabeza no sólo para ponerse un sombrero.

Consejo, no permitan que los traten como ganado. Cada uno tiene derecho a tener una opinión. Dicha opinión puede variar según la persona, el sexo, la generación y el día. No todos tenemos las mismas opiniones, eso no quiere decir que debamos aunarlas siempre que podamos, ni que debamos renunciar a ellas.

Sólo debemos aprender a vivir con la diversidad, respetándonos y respetando al otro.

Big Blue March

¿Alguien supo algo de esto?

Ya pasaron cinco días y sigo sin escuchar o leer noticia al respecto. Quizas sea porque no tuve tiempo para vivir entre mi trabajo y mi cama.

Yo sabía...

... que la sociedad nos iba a llevar a esto.

(espero que esten orgullosos de ustedes mismos)