Apple Announces The Apple Silicon M1: Ditching x86 - What to Expect, Based on A14

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sriharis304  posted on  2020-11-12

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alb_d  commented on  2020-11-12

"What really defines Apple’s Firestorm CPU core from other designs in the industry is just the sheer width of the microarchitecture. Featuring an 8-wide decode block, Apple’s Firestorm is by far the current widest commercialized design in the industry. IBM’s upcoming P10 Core in the POWER10 is the only other official design that’s expected to come to market with such a wide decoder design, following Samsung’s cancellation of their own M6 core which also was described as being design with such a wide design.

Other contemporary designs such as AMD’s Zen(1 through 3) and Intel’s µarch’s, x86 CPUs today still only feature a 4-wide decoder designs (Intel is 1+4) that is seemingly limited from going wider at this point in time due to the ISA’s inherent variable instruction length nature, making designing decoders that are able to deal with aspect of the architecture more difficult compared to the ARM ISA’s fixed-length instructions. On the ARM side of things, Samsung’s designs had been 6-wide from the M3 onwards, whilst Arm’s own Cortex cores had been steadily going wider with each generation, currently 4-wide in currently available silicon, and expected to see an increase to a 5-wide design in upcoming Cortex-X1 cores."


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alb_d  commented on  2020-11-12

"A +-630 deep ROB is an immensely huge out-of-order window for Apple’s new core, as it vastly outclasses any other design in the industry. Intel’s Sunny Cove and Willow Cove cores are the second-most “deep” OOO designs out there with a 352 ROB structure, while AMD’s newest Zen3 core makes due with 256 entries, and recent Arm designs such as the Cortex-X1 feature a 224 structure.

Exactly how and why Apple is able to achieve such a grossly disproportionate design compared to all other designers in the industry isn’t exactly clear, but it appears to be a key characteristic of Apple’s design philosophy and method to achieve high ILP (Instruction level-parallelism)."


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alb_d  commented on  2020-11-12

"Floating-point operations throughput here is 1:1 with the pipeline count, meaning Firestorm can do 4 FADDs and 4 FMULs per cycle with respectively 3 and 4 cycles latency. That’s quadruple the per-cycle throughput of Intel CPUs and previous AMD CPUs, and still double that of the recent Zen3, of course, still running at lower frequency. This might be one reason why Apples does so well in browser benchmarks (JavaScript numbers are floating-point doubles)."


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alb_d  commented on  2020-11-12

"What’s interesting here is again the depth of which Apple can handle outstanding memory transactions. We’re measuring up to around 148-154 outstanding loads and around 106 outstanding stores, which should be the equivalent figures of the load-queues and store-queues of the memory subsystem. To not surprise, this is also again deeper than any other microarchitecture on the market. Interesting comparisons are AMD’s Zen3 at 44/64 loads & stores, and Intel’s Sunny Cove at 128/72."


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alb_d  commented on  2020-11-12

"One large improvement on the part of the Firestorm cores this generation has been on the side of the TLBs. The L1 TLB has been doubled from 128 pages to 256 pages, and the L2 TLB goes up from 2048 pages to 3072 pages. On today’s iPhones this is an absolutely overkill change as the page size is 16KB, which means that the L2 TLB covers 48MB which is well beyond the cache capacity of even the A14. With Apple moving the microarchitecture onto Mac systems, having compatibility with 4KB pages and making sure the design still offers enough performance would be a key part as to why Apple chose to make such a large upgrade this generation."


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alb_d  commented on  2020-11-12

"Last year we had speculated that the A13 had 128KB L1 Instruction cache, similar to the 128KB L1 Data cache for which we can test for, however following Darwin kernel source dumps Apple has confirmed that it’s actually a massive 192KB instruction cache. That’s absolutely enormous and is 3x larger than the competing Arm designs, and 6x larger than current x86 designs, which yet again might explain why Apple does extremely well in very high instruction pressure workloads, such as the popular JavaScript benchmarks."


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alb_d  commented on  2020-11-12

"The performance numbers of the A14 on this chart is relatively mind-boggling. If I were to release this data with the label of the A14 hidden, one would guess that the data-points came from some other x86 SKU from either AMD or Intel. The fact that the A14 currently competes with the very best top-performance designs that the x86 vendors have on the market today is just an astonishing feat."


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alb_d  commented on  2020-11-12

"The fact that Apple is able to achieve this in a total device power consumption of 5W including the SoC, DRAM, and regulators, versus +21W (1185G7) and 49W (5950X) package power figures, without DRAM or regulation, is absolutely mind-blowing."


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alb_d  commented on  2020-11-12

"Whilst in the past 5 years Intel has managed to increase their best single-thread performance by about 28%, Apple has managed to improve their designs by 198%, or 2.98x (let’s call it 3x) the performance of the Apple A9 of late 2015."


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alb_d  commented on  2020-11-12

"Apple claims the M1 to be the fastest CPU in the world. Given our data on the A14, beating all of Intel’s designs, and just falling short of AMD’s newest Zen3 chips – a higher clocked Firestorm above 3GHz, the 50% larger L2 cache, and an unleashed TDP, we can certainly believe Apple and the M1 to be able to achieve that claim.

This moment has been brewing for years now, and the new Apple Silicon is both shocking, but also very much expected. In the coming weeks we’ll be trying to get our hands on the new hardware and verify Apple’s claims.

Intel has stagnated itself out of the market, and has lost a major customer today. AMD has shown lots of progress lately, however it’ll be incredibly hard to catch up to Apple’s power efficiency. If Apple’s performance trajectory continues at this pace, the x86 performance crown might never be regained."


How Apple Just Changed the Entire Industry - YouTube

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alb_d  commented on  2020-11-27

Adobe Photoshop ships on Macs with Apple Silicon: Gains speedier selections, filters and performance boosts

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alb_d  commented on  2021-03-13

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alb_d  commented on  2021-03-13

"Our internal tests show a wide range of features running an average of 1.5X the speed of similarly configured previous generation systems."