Comment by readitalready
15 hours ago
I still have some of the 88000 reference manuals, and it was really my first introduction to RISC architecture, and I thought it was great. But I never figured out why companies like Apple never chose it for their CPU?
I believe it was the first RISC that Apple prototyped building a Mac around, including a 68K emulator. IIRC from Gary Davidian’s CHM oral history, it was corporate dealmaking that led to AIM and PPC more than any technical negatives for the 88K.
https://computerhistory.org/blog/transplanting-the-macs-cent...
Yeah, this is probably closest to the right answer. Apple DID choose the 88K, and then changed. Reportedly they put some 88K systems in a Mac chassis.
I do wonder what the exact reasons were. Maybe the PPC (complete systems) could be made cheaper? Maybe Apple was worried about relying on a single vendor? I am kind of skeptical of the “corporate dealmaking” angle, because it seems like there are valid technical reasons to NOT choose the 88K. Namely, that it requires companion chips, and the whole system (board + chips) ends up being complicated and expensive.
What I always read was that Apple did not want to be stuck relying only on Motorola again like they were with the 680x0. And it worked out, kinda, Apple had IBM to rely on to make the G5 (until IBM also lost interest)
I remember reading that the successor 88110 design with the support chips integrated was announced mainly to woo Apple but I don't know how true that is.
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Timing. The 68k still had legs, i.e. the 68040 provided great drop in performance and had an enormous ecosystem and economies of scale. By the time the RISC wars were starting to get fever pitched, the POWER architecture and AIM alliance seemed like a blessing to combine ecosystems and economies of scale for the A and M constituents. And it was.. successful product lines for 2-3 decades from all sorts of embedded systems to G5 workstations to spacecraft.
The 88000 was implemented across three large ICs. This took an enormous amount of board space and would be unfeasible on the smaller Macs.
Complicated, expensive CPU marketed to very high end workstation use? Nobody thought it was worth picking up even if it was faster than the alternatives.
Nobody wanted to bet payroll on a weird new ISA with no volume story. The "faster" part only matters if your compiler and OS aren't tripping over oddball silicon limits every patch release and that was a huge if back then, because once the toolchain, ABI, and kernel are all fighting the chip the benchmark win dies fast.
Both Apple and NeXT had machines prototyped around it, but it was initially very expensive I believe, and I think Apple was easily convinced to go with PowerPC ... and rather than evolve it and push it further Motorola dropped it in favour of going in on PowerPC.
The sad thing is Intel showed there was still life left in CISC, and Motorola themselves ended up circling back on 68k in the form of ColdFire which proved you could do for 68k what Intel did w/ the Pentium. But by then all their 68k customers had moved on from the 68k ISA.
68k was much harder to optimize than x86, being way more CISC-y
68k like VAX was seen as dead avenue not only compared to RISC
Motorola had made a few design mistakes, like adding memory indirect addressing in MC68020, which were removed much later, in the ColdFire Motorola CPUs.
But Intel had made much more design mistakes in the x86 ISA.
The truth is that the success of Intel and the failure of Motorola had absolutely nothing to do with the technical advantages or disadvantages of their CPU architectures.
Intel won and Motorola failed simply because IBM had chosen the Intel 8088 for the IBM PC.
Being chosen by IBM was partly due to luck and partly due to a bad commercial strategy of Motorola, which had chosen to develop in parallel 2 incompatible CPU architectures, MC68000 intended for the high end of the market and MC6809 for the low end of the market.
Perhaps more due to luck than due to wise planning, Intel had chosen to not divert their efforts into developing 2 distinct architectures (because they were already working in parallel at the 432 architecture for their future CPUs, which was a flop), so after developing the 8086 for the high end of the market they have just crippled it a little into the 8088 for the low end of the market.
Both 8086 and MC68000 were considered too expensive by IBM, but 8088 seemed a better choice than Z80 or MC6809, mainly by allowing more memory than 64 kB, which was already rather little in 1980.
In the following years, until 80486 Motorola succeeded to have a consistent lead in performance over Intel and they always introduced various innovations a few years before Intel, but they never succeeded to match again Intel in price and manufacturing reliability, because Intel had the advantage of producing an order of magnitude more CPUs, which helped solving all problems.
Eventually Intel matched and then exceeded the performance of the Motorola CPUs, despite the disadvantages of their architecture, due to having access to superior manufacturing, so Motorola had to restrict the use of their proprietary ISAs to the embedded markets, switching to IBM POWER for general-purpose computers.