XBOX Contraataca: Análisis oficial de Microsoft de "las mentiras de PS3"

Esto es un articulo estrito por Microsoft, punto por punto analiza y critica las "mentiras" de PS3.

Yo no me pronuncio, que cada cual comente si esto es márketing o si tiene algo de verdad.

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Microsoft's Xbox 360 Vs. Sony's PlayStation 3?
With Sony's specs out, Microsoft has sent us its a comparitive analysis. What's the outcome?

by Douglass C. Perry

May 20, 2005 - It's 3:30 pm on Friday, May 20, the last day of E3. The fine PR folks from Microsoft, who invited us to their headquarters a week before E3 to show us their system, their specs, and the grand design behind their powerful new Xbox 360, have just sent us an urgent notice to update our specs with new information. Earlier in the day, we were sent a comparative analysis of the Xbox 360's power vs. the PlayStation 3's power.

We decided to put this Microsoft-provided information our undigested. Thus, enclosed is

a Microsoft-made comparitive analysis. We have not alterted, added, or tinkered with the data. We have not interpreted the specs. We have pasted and cut this information from the email into our site and formatted it. Make of it what you will, but be clear we know Microsoft has clearly slanted this info, and we're not endorsing it, just printing their version. There is a difference.

XBOX 360 / PLAYSTATION 3 PERFORMANCE COMPARISON

SUMMARY
Now that the Xbox 360 and PlayStation 3 specifications have been announced, it is possible to do a real world performance comparison of the two systems.

There are three critical performance aspects of a console:

Central Processing Unit (CPU) performance.
The Xbox 360 CPU architecture has three times the general purpose

processing power of the Cell.
Graphics Processing Unit (GPU) performance
The Xbox 360 GPU design is more flexible and it has more processing power

than the PS3 GPU.
Memory System Bandwidth
The memory system bandwidth in Xbox 360 exceeds the PS3's by five times.

The Xbox 360's CPU has more general purpose processing power because it has three general purpose cores, and Cell has just one.

Cell's claimed advantage is on streaming floating point work which is done on its seven DSP processors.

The Xbox 360 GPU has more processing power than the PS3's. In addition, its innovated features contribute to overall rendering performance.

Xbox 360 has 278.4 GB/s of memory system bandwidth. The PS3 has less than one-fifth of Xbox 360's (48 GB/s) of total memory system bandwidth.

CONCLUSION
When you break down the numbers, Xbox 360 has provably more performance than PS3. Keep in mind that Sony has a track record of over promising and under delivering on technical performance. The truth is that both systems pack a lot of power for high definition games and entertainment.

However, hardware performance, while important, is only a third of the puzzle. Xbox 360 is a fusion of hardware, software and services. Without the software and services to power it, even the most powerful hardware becomes inconsequential. Xbox 360 games —by leveraging cutting-edge hardware, software, and services—will outperform the PlayStation 3.


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DETAILED ANALYSIS OF PERFORMANCE SPECIFICATIONS

CPU


The Xbox 360 processor was designed to give game developers the power that they actually need, in an easy to use form. The Cell processor has impressive streaming floating-point power that is of limited use for games.

The majority of game code is a mixture of integer, floating-point, and vector math, with lots of branches and random memory accesses. This code is best handled by a general purpose CPU with a cache, branch predictor, and vector unit.

The Cell's seven DSPs (what Sony calls SPEs) have no cache, no direct access to memory, no branch predictor, and a different instruction set from the PS3's main CPU. They are not designed for or efficient at general purpose computing. DSPs are not appropriate for game programming.

Xbox 360 has three general purpose CPU cores. The Cell processor has only one.

Xbox 360's CPUs has vector processing power on each CPU core. Each Xbox 360 core has 128 vector registers per hardware thread, with a dot product instruction, and a shared 1-MB L2 cache. The Cell processor's vector processing power is mostly on the seven DSPs.

Dot products are critical to games because they are used in 3D math to calculate vector lengths, projections, transformations, and more. The Xbox 360 CPU has a dot product instruction, where other CPUs such as Cell must emulate dot product using multiple instructions.

Cell's streaming floating-point work is done on its seven DSP processors. Since geometry processing is moved to the GPU, the need for streaming floating-point work and other DSP style programming in games has dropped dramatically.

Just like with the PS2's Emotion Engine, with its missing L2 cache, the Cell is designed for a type of game programming that accounts for a minor percentage of processing time.

Sony's CPU is ideal for an environment where 12.5% of the work is general-purpose computing and 87.5% of the work is DSP calculations. That sort of mix makes sense for video playback or networked waveform analysis, but not for games. In fact, when analyzing real games one finds almost the opposite distribution of general purpose computing and DSP calculation requirements. A relatively small percentage of instructions are actually floating point. Of those instructions which are floating-point, very few involve processing continuous streams of numbers. Instead they are used in tasks like AI and path-finding, which require random access to memory and frequent branches, which the DSPs are ill-suited to.

Based on measurements of running next generation games, only ~10-30% of the instructions executed are floating point. The remainders of the instructions are load, store, integer, branch, etc. Even fewer of the instructions executed are streaming floating point—probably ~5-10%. Cell is optimized for streaming floating-point, with 87.5% of its cores good for streaming floating-point and nothing else.

Game programmers do not want to spread their code over eight processors, especially when seven of the processors are poorly suited for general purpose programming. Evenly distributing game code across eight processors is extremely difficult.

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GPU
Even ignoring the bandwidth limitations the PS3's GPU is not as powerful as the Xbox 360's GPU.

Below are the specs from Sony's press release regarding the PS3's GPU.



RSX GPU

550 MHz
Independent vertex/pixel shaders
51 billion dot products per second (total system performance)
300M transistors
136 "shader operations" per clock

The interesting ALU performance numbers are 51 billion dot products per second (total system performance), 300M transistors, and more than twice as powerful as the 6800 Ultra.

The 51 billions dot products per cycle were listed on a summary slide of total graphics system performance and are assumed to include the Cell processor. Sony's calculations seem to assume that the Cell can do a dot product per cycle per DSP, despite not having a dot product instruction.

However, using Sony's claim, 7 dot products per cycle * 3.2 GHz = 22.4 billion dot products per second for the CPU. That leaves 51 - 22.4 = 28.6 billion dot products per second that are left over for the GPU. That leaves 28.6 billion dot products per second / 550 MHz = 52 GPU ALU ops per clock.

It is important to note that if the RSX ALUs are similar to the GeForce 6800 ALUs then they work on vector4s, while the Xbox 360 GPU ALUs work on vector5s. The total programmable GPU floating point performance for the PS3 would be 52 ALU ops * 4 floats per op *2 (madd) * 550 MHz = 228.8 GFLOPS which is less than the Xbox 360's 48 ALU ops * 5 floats per op * 2 (madd) * 500 MHz= 240 GFLOPS.

With the number of transistors being slightly larger on the Xbox 360 GPU (330M) it's not surprising that the total programmable GFLOPs number is very close.

The PS3 does have the additional 7 DSPs on the Cell to add more floating point ops for graphics rendering, but the Xbox 360's three general purpose cores with custom D3D and dot product instructions are more customized for true graphics related calculations.

The 6800 Ultra has 16 pixel pipes, 6 vertex pipes, and runs at 400 MHz. Given the RSX's 2x better than a 6800 Ultra number and the higher frequency of the RSX, one can roughly estimate that it will have 24 pixel shading pipes and 4 vertex shading pipes (fewer vertex shading pipes since the Cell DSPs will do some vertex shading). If the PS3 GPU keeps the 6800 pixel shader pipe co-issue architecture which is hinted at in Sony's press release, this again gives it 24 pixel pipes* 2 issued per pipe + 4 vertex pipes = 52 dot products per clock in the GPU.

If the RSX follows the 6800 Ultra route, it will have 24 texture samplers, but when in use they take up an ALU slot, making the PS3 GPU in practice even less impressive. Even if it does manage to decouple texture fetching from ALU co-issue, it won't have enough bandwidth to fetch the textures anyways.

For shader operations per clock, Sony is most likely counting each pixel pipe as four ALU operations (co-issued vector+scalar) and a texture operation per pixel pipe and 4 scalar operations for each vector pipe, for a total of 24 * (4 + 1) + (4*4) = 136 operations per cycle or 136 * 550 = 74.8 GOps per second.

Given the Xbox 360 GPU's multithreading and balanced design, you really can't compare the two systems in terms of shading operations per clock. However, the Xbox 360's GPU can do 48 ALU operations (each can do a vector4 and scalar op per clock), 16 texture fetches, 32 control flow operations, and 16 programmable vertex fetch operations with tessellation per clock for a total of 48*2 + 16 + 32 + 16 = 160 operations per cycle or 160 * 500 = 80 GOps per second.

Overall, the automatic shader load balancing, memory export features, programmable vertex fetching, programmable triangle tesselator, full rate texture fetching in the vertex shader, and other "well beyond shader model 3.0" features of the Xbox 360 GPU should also contribute to overall rendering performance.

Bandwidth
The PS3 has 22.4 GB/s of GDDR3 bandwidth and 25.6 GB/s of RDRAM bandwidth for a total system bandwidth of 48 GB/s.

The Xbox 360 has 22.4 GB/s of GDDR3 bandwidth and a 256 GB/s of EDRAM bandwidth for a total of 278.4 GB/s total system bandwidth.

Why does the Xbox 360 have such an extreme amount of bandwidth? Even the simplest calculations show that a large amount of bandwidth is consumed by the frame buffer. For example, with simple color rendering and Z testing at 550 MHz the frame buffer alone requires 52.8 GB/s at 8 pixels per clock. The PS3's memory bandwidth is insufficient to maintain its GPU's peak rendering speed, even without texture and vertex fetches.

The PS3 uses Z and color compression to try to compensate for the lack of memory bandwidth. The problem with Z and color compression is that the compression breaks down quickly when rendering complex next-generation 3D scenes.

HDR, alpha-blending, and anti-aliasing require even more memory bandwidth. This is why Xbox 360 has 256 GB/s bandwidth reserved just for the frame buffer. This allows the Xbox 360 GPU to do Z testing, HDR, and alpha blended color rendering with 4X MSAA at full rate and still have the entire main bus bandwidth of 22.4 GB/s left over for textures and vertices.

CONCLUSION
When you break down the numbers, Xbox 360 has provably more performance than PS3. Keep in mind that Sony has a track record of over promising and under delivering on technical performance. The truth is that both systems pack a lot of power for high definition games and entertainment.

However, hardware performance, while important, is only a third of the puzzle. Xbox 360 is a fusion of hardware, software and services. Without the software and services to power it, even the most powerful hardware becomes inconsequential. Xbox 360 games —by leveraging cutting-edge hardware, software, and services—will outperform the PlayStation 3.


Lastly, we were sent updated spec numbers on the Xbox's numbers, and we spoke with
Microsoft's Vice President of hardware, Todd Holmdahl, about the Xbox 360's final transistor count.

Another bit of information sent our way is the final transistor count for Xbox 360's graphics subset. The GPU totals 332 million transistors, which is spit between the two separate dies that make up the part. The parent die is the "main" piece of the GPU, handling the large bulk of the graphics rendering, and is comprised of 232 million transistors. The daughter die contains the system's 10MB of embedded DRAM and its logic chip, which is capable of some additional 3D math. The daughter die totals an even 100 million transistors, bringing the total transistor count for the GPU to 232 million.
Una lástima que lo haya dicho Microsoft, no creo que sean demasiado objetivos :P
que lastima que el hilo es repe, esperaba ver algo nuevo
Jur...

En broma: las demos jugables de X360 funcionaban en dos Mac XD

En serio: Lo de los informes técnicos siempre son parciales, y Sony puede sacar uno diciendo e incluso demostrando todo lo contrario, al igual que MS puede sacar otro informe demostrando otra vez que ellos son más potentes.

De momento, me quedo con los datos aportados por la conferencia de Sony; no sé si son más o menos veraces, pero sí que se explicaron y demostraron más cosas que en la conferencia de MS.

Otro tema es que esas demostraciones fueran o no "normales" o estuvieran preparadas para no fallar.

Lo que no me gusta es que MS acuse de algo a la competencia (o si llega a ser Sony, me da igual).

Lo que deberían hacer MS o Sony es volcarse en demostrar que sus propios datos y rendimientos expuestos en el E3 son ciertos, no en que los de los demás no lo son.

Un saludo.
¿Y dónde esta el primer hilo igual? A lo mejor se me ha psado.
Anon-EOL escribió:¿Y dónde esta el primer hilo igual? A lo mejor se me ha psado.


http://elotrolado.net/showthread.php?threadid=417344


no te preocupes.... con tanta cosa de E3 es muy facil repetir
Es que ni he entrado pq pensé que sería el tipico hilo de unas de las mil revistas poniendo tablas de datos paralelas. De todos modos aquí está mejor el hilo, porque digamos que va más de "las mentiras sobre las mentiras" de cada compañía que de una en concreto ;)
AAAAAAAAAAAARRRRRRRRRRRRGGGGGGGGGGGGGGGGGGGGG
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