Ok the NDA has finally lifted and the official architecture documentation is up. Its finally time to take a look at Maxwell in depth. It manages to Double the Performance per Watt while staying on the same 28nm Process. Which, there is no other way to put it, is nothing short of a miracle. Lets see just how exactly it manages that.
Maxwell 28nm Miracle - How the Architecture makes Doubling Performance Per Watt Possible
Firstly, as I am sure most of you are aware, Maxwell does not work on SMX units. It works on SMMs, short for Streaming Maxwell Multiprocessors. Each SMM houses 128 CUDA Cores as opposed to the 192 housed by SMXs. Now unlike in the Kepler architecture where the CUDA Cores are housed in a single core fashion, Maxwell houses Cuda Cores in 4 subsets of each SMM. Almost 4 Separate "Cores" within the SMM. Lets call these "Major Cores" (as opposed to CUDA Cores) to avoid confusion. Do realize that this only refers to the 1st Generation of Maxwell and the division by four could change in the next generation. The Major Cores tactic allows Nvidia to achieve much higher efficiency rates and increase performance by 135% Per Core. Take a look at this diagram of Maxwell SMMs.
Here are the Kepler SMX in comparison:
I would also like to mention concludingly that there is something in the Maxwell architecture that Nvidia is not telling us. The 'secret sauce' approach if you may, though its childish no one can argue with its effectiveness.
The NDA Has Finally Lifted. #Nvidia #Maxwell Architecture Analysis. http://t.co/TJE9k7efRE
— Usman Pirzada (@usmanpirzada) February 18, 2014
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